//------------------------------
// The fastMavlink library
// (c) OlliW, OlliW42, www.olliw.eu
//------------------------------

#pragma once
#ifndef FASTMAVLINK_ARDUPILOTMEGA_H
#define FASTMAVLINK_ARDUPILOTMEGA_H

#ifdef __cplusplus
extern "C" {
#endif

#ifndef FASTMAVLINK_BUILD_DATE
#define FASTMAVLINK_BUILD_DATE  "Wed Jun 01 2022"
#endif

#ifndef FASTMAVLINK_DIALECT_VERSION
#define FASTMAVLINK_DIALECT_VERSION  0  // this is the version specified in the dialect xml file
#endif


//------------------------------
//-- Message credentials
//-- The values of msg_entry_t for all messages in the dialect.
//-- msgid, extra crc, max length, flag, target sysid offset, target compid offset
//------------------------------

#include "ardupilotmega_msg_entries.h"

#ifndef FASTMAVLINK_MESSAGE_CRCS
#define FASTMAVLINK_MESSAGE_CRCS  FASTMAVLINK_MSG_ENTRIES
#endif


//------------------------------
//-- FastMavlink lib
//------------------------------

#include "../lib/fastmavlink.h"

#ifdef FASTMAVLINK_PYMAVLINK_ENABLED
#include "../lib/fastmavlink_pymavlink.h"
#endif


//------------------------------
//-- Enum definitons
//------------------------------

#ifndef FASTMAVLINK_TEST_EXCLUDE_ENUMS

#ifndef FASTMAVLINK_HAS_ENUM_ACCELCAL_VEHICLE_POS
#define FASTMAVLINK_HAS_ENUM_ACCELCAL_VEHICLE_POS
typedef enum ACCELCAL_VEHICLE_POS {
    ACCELCAL_VEHICLE_POS_LEVEL = 1,  //  
    ACCELCAL_VEHICLE_POS_LEFT = 2,  //  
    ACCELCAL_VEHICLE_POS_RIGHT = 3,  //  
    ACCELCAL_VEHICLE_POS_NOSEDOWN = 4,  //  
    ACCELCAL_VEHICLE_POS_NOSEUP = 5,  //  
    ACCELCAL_VEHICLE_POS_BACK = 6,  //  
    ACCELCAL_VEHICLE_POS_SUCCESS = 16777215,  //  
    ACCELCAL_VEHICLE_POS_FAILED = 16777216,  //  
    ACCELCAL_VEHICLE_POS_ENUM_END = 16777217,  // end marker
} ACCELCAL_VEHICLE_POS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_HEADING_TYPE
#define FASTMAVLINK_HAS_ENUM_HEADING_TYPE
typedef enum HEADING_TYPE {
    HEADING_TYPE_COURSE_OVER_GROUND = 0,  //  
    HEADING_TYPE_HEADING = 1,  //  
    HEADING_TYPE_ENUM_END = 2,  // end marker
} HEADING_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_SPEED_TYPE
#define FASTMAVLINK_HAS_ENUM_SPEED_TYPE
typedef enum SPEED_TYPE {
    SPEED_TYPE_AIRSPEED = 0,  //  
    SPEED_TYPE_GROUNDSPEED = 1,  //  
    SPEED_TYPE_ENUM_END = 2,  // end marker
} SPEED_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_CMD
#define FASTMAVLINK_HAS_ENUM_MAV_CMD
typedef enum MAV_CMD {
    MAV_CMD_NAV_WAYPOINT = 16,  // Navigate to waypoint. | Hold time. (ignored by fixed wing, time to stay at waypoint for rotary wing) | Acceptance radius (if the sphere with this radius is hit, the waypoint counts as reached) | 0 to pass through the WP, if > 0 radius to pass by WP. Positive value for clockwise orbit, negative value for counter-clockwise orbit. Allows trajectory control. | Desired yaw angle at waypoint (rotary wing). NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). | Latitude | Longitude | Altitude
    MAV_CMD_NAV_LOITER_UNLIM = 17,  // Loiter around this waypoint an unlimited amount of time | Empty | Empty | Loiter radius around waypoint for forward-only moving vehicles (not multicopters). If positive loiter clockwise, else counter-clockwise | Desired yaw angle. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). | Latitude | Longitude | Altitude
    MAV_CMD_NAV_LOITER_TURNS = 18,  // Loiter around this waypoint for X turns | Number of turns. | Leave loiter circle only once heading towards the next waypoint (0 = False) | Loiter radius around waypoint for forward-only moving vehicles (not multicopters). If positive loiter clockwise, else counter-clockwise | Loiter circle exit location and/or path to next waypoint ("xtrack") for forward-only moving vehicles (not multicopters). 0 for the vehicle to converge towards the center xtrack when it leaves the loiter (the line between the centers of the current and next waypoint), 1 to converge to the direct line between the location that the vehicle exits the loiter radius and the next waypoint. Otherwise the angle (in degrees) between the tangent of the loiter circle and the center xtrack at which the vehicle must leave the loiter (and converge to the center xtrack). NaN to use the current system default xtrack behaviour. | Latitude | Longitude | Altitude
    MAV_CMD_NAV_LOITER_TIME = 19,  // Loiter at the specified latitude, longitude and altitude for a certain amount of time. Multicopter vehicles stop at the point (within a vehicle-specific acceptance radius). Forward-only moving vehicles (e.g. fixed-wing) circle the point with the specified radius/direction. If the Heading Required parameter (2) is non-zero forward moving aircraft will only leave the loiter circle once heading towards the next waypoint. | Loiter time (only starts once Lat, Lon and Alt is reached). | Leave loiter circle only once heading towards the next waypoint (0 = False) | Loiter radius around waypoint for forward-only moving vehicles (not multicopters). If positive loiter clockwise, else counter-clockwise. | Loiter circle exit location and/or path to next waypoint ("xtrack") for forward-only moving vehicles (not multicopters). 0 for the vehicle to converge towards the center xtrack when it leaves the loiter (the line between the centers of the current and next waypoint), 1 to converge to the direct line between the location that the vehicle exits the loiter radius and the next waypoint. Otherwise the angle (in degrees) between the tangent of the loiter circle and the center xtrack at which the vehicle must leave the loiter (and converge to the center xtrack). NaN to use the current system default xtrack behaviour. | Latitude | Longitude | Altitude
    MAV_CMD_NAV_RETURN_TO_LAUNCH = 20,  // Return to launch location | Empty | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_NAV_LAND = 21,  // Land at location. | Minimum target altitude if landing is aborted (0 = undefined/use system default). | Precision land mode. | Empty. | Desired yaw angle. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). | Latitude. | Longitude. | Landing altitude (ground level in current frame).
    MAV_CMD_NAV_TAKEOFF = 22,  // Takeoff from ground / hand. Vehicles that support multiple takeoff modes (e.g. VTOL quadplane) should take off using the currently configured mode. | Minimum pitch (if airspeed sensor present), desired pitch without sensor | Empty | Empty | Yaw angle (if magnetometer present), ignored without magnetometer. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). | Latitude | Longitude | Altitude
    MAV_CMD_NAV_LAND_LOCAL = 23,  // Land at local position (local frame only) | Landing target number (if available) | Maximum accepted offset from desired landing position - computed magnitude from spherical coordinates: d = sqrt(x^2 + y^2 + z^2), which gives the maximum accepted distance between the desired landing position and the position where the vehicle is about to land | Landing descend rate | Desired yaw angle | Y-axis position | X-axis position | Z-axis / ground level position
    MAV_CMD_NAV_TAKEOFF_LOCAL = 24,  // Takeoff from local position (local frame only) | Minimum pitch (if airspeed sensor present), desired pitch without sensor | Empty | Takeoff ascend rate | Yaw angle (if magnetometer or another yaw estimation source present), ignored without one of these | Y-axis position | X-axis position | Z-axis position
    MAV_CMD_NAV_FOLLOW = 25,  // Vehicle following, i.e. this waypoint represents the position of a moving vehicle | Following logic to use (e.g. loitering or sinusoidal following) - depends on specific autopilot implementation | Ground speed of vehicle to be followed | Radius around waypoint. If positive loiter clockwise, else counter-clockwise | Desired yaw angle. | Latitude | Longitude | Altitude
    MAV_CMD_NAV_CONTINUE_AND_CHANGE_ALT = 30,  // Continue on the current course and climb/descend to specified altitude.  When the altitude is reached continue to the next command (i.e., don't proceed to the next command until the desired altitude is reached. | Climb or Descend (0 = Neutral, command completes when within 5m of this command's altitude, 1 = Climbing, command completes when at or above this command's altitude, 2 = Descending, command completes when at or below this command's altitude. | Empty | Empty | Empty | Empty | Empty | Desired altitude
    MAV_CMD_NAV_LOITER_TO_ALT = 31,  // Begin loiter at the specified Latitude and Longitude.  If Lat=Lon=0, then loiter at the current position.  Don't consider the navigation command complete (don't leave loiter) until the altitude has been reached. Additionally, if the Heading Required parameter is non-zero the aircraft will not leave the loiter until heading toward the next waypoint. | Leave loiter circle only once heading towards the next waypoint (0 = False) | Loiter radius around waypoint for forward-only moving vehicles (not multicopters). If positive loiter clockwise, negative counter-clockwise, 0 means no change to standard loiter. | Empty | Loiter circle exit location and/or path to next waypoint ("xtrack") for forward-only moving vehicles (not multicopters). 0 for the vehicle to converge towards the center xtrack when it leaves the loiter (the line between the centers of the current and next waypoint), 1 to converge to the direct line between the location that the vehicle exits the loiter radius and the next waypoint. Otherwise the angle (in degrees) between the tangent of the loiter circle and the center xtrack at which the vehicle must leave the loiter (and converge to the center xtrack). NaN to use the current system default xtrack behaviour. | Latitude | Longitude | Altitude
    MAV_CMD_DO_FOLLOW = 32,  // Begin following a target | System ID (of the FOLLOW_TARGET beacon). Send 0 to disable follow-me and return to the default position hold mode. | Reserved | Reserved | Altitude mode: 0: Keep current altitude, 1: keep altitude difference to target, 2: go to a fixed altitude above home. | Altitude above home. (used if mode=2) | Reserved | Time to land in which the MAV should go to the default position hold mode after a message RX timeout.
    MAV_CMD_DO_FOLLOW_REPOSITION = 33,  // Reposition the MAV after a follow target command has been sent | Camera q1 (where 0 is on the ray from the camera to the tracking device) | Camera q2 | Camera q3 | Camera q4 | altitude offset from target | X offset from target | Y offset from target
    MAV_CMD_DO_ORBIT = 34,  // Start orbiting on the circumference of a circle defined by the parameters. Setting values to NaN/INT32_MAX (as appropriate) results in using defaults. | Radius of the circle. Positive: orbit clockwise. Negative: orbit counter-clockwise. NaN: Use vehicle default radius, or current radius if already orbiting. | Tangential Velocity. NaN: Use vehicle default velocity, or current velocity if already orbiting. | Yaw behavior of the vehicle. | Orbit around the centre point for this many radians (i.e. for a three-quarter orbit set 270*Pi/180). 0: Orbit forever. NaN: Use vehicle default, or current value if already orbiting. | Center point latitude (if no MAV_FRAME specified) / X coordinate according to MAV_FRAME. INT32_MAX (or NaN if sent in COMMAND_LONG): Use current vehicle position, or current center if already orbiting. | Center point longitude (if no MAV_FRAME specified) / Y coordinate according to MAV_FRAME. INT32_MAX (or NaN if sent in COMMAND_LONG): Use current vehicle position, or current center if already orbiting. | Center point altitude (MSL) (if no MAV_FRAME specified) / Z coordinate according to MAV_FRAME. NaN: Use current vehicle altitude.
    MAV_CMD_NAV_ROI = 80,  // Sets the region of interest (ROI) for a sensor set or the vehicle itself. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. | Region of interest mode. | Waypoint index/ target ID. (see MAV_ROI enum) | ROI index (allows a vehicle to manage multiple ROI's) | Empty | x the location of the fixed ROI (see MAV_FRAME) | y | z
    MAV_CMD_NAV_PATHPLANNING = 81,  // Control autonomous path planning on the MAV. | 0: Disable local obstacle avoidance / local path planning (without resetting map), 1: Enable local path planning, 2: Enable and reset local path planning | 0: Disable full path planning (without resetting map), 1: Enable, 2: Enable and reset map/occupancy grid, 3: Enable and reset planned route, but not occupancy grid | Empty | Yaw angle at goal | Latitude/X of goal | Longitude/Y of goal | Altitude/Z of goal
    MAV_CMD_NAV_SPLINE_WAYPOINT = 82,  // Navigate to waypoint using a spline path. | Hold time. (ignored by fixed wing, time to stay at waypoint for rotary wing) | Empty | Empty | Empty | Latitude/X of goal | Longitude/Y of goal | Altitude/Z of goal
    MAV_CMD_NAV_ALTITUDE_WAIT = 83,  // Mission command to wait for an altitude or downwards vertical speed. This is meant for high altitude balloon launches, allowing the aircraft to be idle until either an altitude is reached or a negative vertical speed is reached (indicating early balloon burst). The wiggle time is how often to wiggle the control surfaces to prevent them seizing up. | Altitude. | Descent speed. | How long to wiggle the control surfaces to prevent them seizing up. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_NAV_VTOL_TAKEOFF = 84,  // Takeoff from ground using VTOL mode, and transition to forward flight with specified heading. The command should be ignored by vehicles that dont support both VTOL and fixed-wing flight (multicopters, boats,etc.). | Empty | Front transition heading. | Empty | Yaw angle. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). | Latitude | Longitude | Altitude
    MAV_CMD_NAV_VTOL_LAND = 85,  // Land using VTOL mode | Landing behaviour. | Empty | Approach altitude (with the same reference as the Altitude field). NaN if unspecified. | Yaw angle. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). | Latitude | Longitude | Altitude (ground level) relative to the current coordinate frame. NaN to use system default landing altitude (ignore value).
    MAV_CMD_NAV_GUIDED_ENABLE = 92,  // hand control over to an external controller | On / Off (> 0.5f on) | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_NAV_DELAY = 93,  // Delay the next navigation command a number of seconds or until a specified time | Delay (-1 to enable time-of-day fields) | hour (24h format, UTC, -1 to ignore) | minute (24h format, UTC, -1 to ignore) | second (24h format, UTC, -1 to ignore) | Empty | Empty | Empty
    MAV_CMD_NAV_PAYLOAD_PLACE = 94,  // Descend and place payload. Vehicle moves to specified location, descends until it detects a hanging payload has reached the ground, and then releases the payload. If ground is not detected before the reaching the maximum descent value (param1), the command will complete without releasing the payload. | Maximum distance to descend. | Empty | Empty | Empty | Latitude | Longitude | Altitude
    MAV_CMD_NAV_LAST = 95,  // NOP - This command is only used to mark the upper limit of the NAV/ACTION commands in the enumeration | Empty | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_CONDITION_DELAY = 112,  // Delay mission state machine. | Delay | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_CONDITION_CHANGE_ALT = 113,  // Ascend/descend to target altitude at specified rate. Delay mission state machine until desired altitude reached. | Descent / Ascend rate. | Empty | Empty | Empty | Empty | Empty | Target Altitude
    MAV_CMD_CONDITION_DISTANCE = 114,  // Delay mission state machine until within desired distance of next NAV point. | Distance. | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_CONDITION_YAW = 115,  // Reach a certain target angle. | target angle, 0 is north | angular speed | direction: -1: counter clockwise, 1: clockwise | 0: absolute angle, 1: relative offset | Empty | Empty | Empty
    MAV_CMD_CONDITION_LAST = 159,  // NOP - This command is only used to mark the upper limit of the CONDITION commands in the enumeration | Empty | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_MODE = 176,  // Set system mode. | Mode | Custom mode - this is system specific, please refer to the individual autopilot specifications for details. | Custom sub mode - this is system specific, please refer to the individual autopilot specifications for details. | Empty | Empty | Empty | Empty
    MAV_CMD_DO_JUMP = 177,  // Jump to the desired command in the mission list.  Repeat this action only the specified number of times | Sequence number | Repeat count | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_CHANGE_SPEED = 178,  // Change speed and/or throttle set points. | Speed type (0=Airspeed, 1=Ground Speed, 2=Climb Speed, 3=Descent Speed) | Speed (-1 indicates no change) | Throttle (-1 indicates no change) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_SET_HOME = 179,  //           Sets the home position to either to the current position or a specified position.          The home position is the default position that the system will return to and land on.          The position is set automatically by the system during the takeoff (and may also be set using this command).          Note: the current home position may be emitted in a HOME_POSITION message on request (using MAV_CMD_REQUEST_MESSAGE with param1=242).               | Use current (1=use current location, 0=use specified location) | Empty | Empty | Yaw angle. NaN to use default heading | Latitude | Longitude | Altitude
    MAV_CMD_DO_SET_PARAMETER = 180,  // Set a system parameter.  Caution!  Use of this command requires knowledge of the numeric enumeration value of the parameter. | Parameter number | Parameter value | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_RELAY = 181,  // Set a relay to a condition. | Relay instance number. | Setting. (1=on, 0=off, others possible depending on system hardware) | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_REPEAT_RELAY = 182,  // Cycle a relay on and off for a desired number of cycles with a desired period. | Relay instance number. | Cycle count. | Cycle time. | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_SERVO = 183,  // Set a servo to a desired PWM value. | Servo instance number. | Pulse Width Modulation. | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_REPEAT_SERVO = 184,  // Cycle a between its nominal setting and a desired PWM for a desired number of cycles with a desired period. | Servo instance number. | Pulse Width Modulation. | Cycle count. | Cycle time. | Empty | Empty | Empty
    MAV_CMD_DO_FLIGHTTERMINATION = 185,  // Terminate flight immediately.          Flight termination immediately and irreversably terminates the current flight, returning the vehicle to ground.          The vehicle will ignore RC or other input until it has been power-cycled.          Termination may trigger safety measures, including: disabling motors and deployment of parachute on multicopters, and setting flight surfaces to initiate a landing pattern on fixed-wing).          On multicopters without a parachute it may trigger a crash landing.          Support for this command can be tested using the protocol bit: MAV_PROTOCOL_CAPABILITY_FLIGHT_TERMINATION.          Support for this command can also be tested by sending the command with param1=0 (< 0.5); the ACK should be either MAV_RESULT_FAILED or MAV_RESULT_UNSUPPORTED.         | Flight termination activated if > 0.5. Otherwise not activated and ACK with MAV_RESULT_FAILED. | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_CHANGE_ALTITUDE = 186,  // Change altitude set point. | Altitude. | Frame of new altitude. | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_ACTUATOR = 187,  // Sets actuators (e.g. servos) to a desired value. The actuator numbers are mapped to specific outputs (e.g. on any MAIN or AUX PWM or UAVCAN) using a flight-stack specific mechanism (i.e. a parameter). | Actuator 1 value, scaled from [-1 to 1]. NaN to ignore. | Actuator 2 value, scaled from [-1 to 1]. NaN to ignore. | Actuator 3 value, scaled from [-1 to 1]. NaN to ignore. | Actuator 4 value, scaled from [-1 to 1]. NaN to ignore. | Actuator 5 value, scaled from [-1 to 1]. NaN to ignore. | Actuator 6 value, scaled from [-1 to 1]. NaN to ignore. | Index of actuator set (i.e if set to 1, Actuator 1 becomes Actuator 7)
    MAV_CMD_DO_LAND_START = 189,  // Mission command to perform a landing. This is used as a marker in a mission to tell the autopilot where a sequence of mission items that represents a landing starts. It may also be sent via a COMMAND_LONG to trigger a landing, in which case the nearest (geographically) landing sequence in the mission will be used. The Latitude/Longitude is optional, and may be set to 0 if not needed. If specified then it will be used to help find the closest landing sequence. | Empty | Empty | Empty | Empty | Latitude | Longitude | Empty
    MAV_CMD_DO_RALLY_LAND = 190,  // Mission command to perform a landing from a rally point. | Break altitude | Landing speed | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_GO_AROUND = 191,  // Mission command to safely abort an autonomous landing. | Altitude | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_REPOSITION = 192,  // Reposition the vehicle to a specific WGS84 global position. | Ground speed, less than 0 (-1) for default | Bitmask of option flags. | Loiter radius for planes. Positive values only, direction is controlled by Yaw value. A value of zero or NaN is ignored.  | Yaw heading. NaN to use the current system yaw heading mode (e.g. yaw towards next waypoint, yaw to home, etc.). For planes indicates loiter direction (0: clockwise, 1: counter clockwise) | Latitude | Longitude | Altitude
    MAV_CMD_DO_PAUSE_CONTINUE = 193,  // If in a GPS controlled position mode, hold the current position or continue. | 0: Pause current mission or reposition command, hold current position. 1: Continue mission. A VTOL capable vehicle should enter hover mode (multicopter and VTOL planes). A plane should loiter with the default loiter radius. | Reserved | Reserved | Reserved | Reserved | Reserved | Reserved
    MAV_CMD_DO_SET_REVERSE = 194,  // Set moving direction to forward or reverse. | Direction (0=Forward, 1=Reverse) | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_ROI_LOCATION = 195,  // Sets the region of interest (ROI) to a location. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. This command can be sent to a gimbal manager but not to a gimbal device. A gimbal is not to react to this message. | Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals). | Empty | Empty | Empty | Latitude of ROI location | Longitude of ROI location | Altitude of ROI location
    MAV_CMD_DO_SET_ROI_WPNEXT_OFFSET = 196,  // Sets the region of interest (ROI) to be toward next waypoint, with optional pitch/roll/yaw offset. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. This command can be sent to a gimbal manager but not to a gimbal device. A gimbal device is not to react to this message. | Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals). | Empty | Empty | Empty | Pitch offset from next waypoint, positive pitching up | Roll offset from next waypoint, positive rolling to the right | Yaw offset from next waypoint, positive yawing to the right
    MAV_CMD_DO_SET_ROI_NONE = 197,  // Cancels any previous ROI command returning the vehicle/sensors to default flight characteristics. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. This command can be sent to a gimbal manager but not to a gimbal device. A gimbal device is not to react to this message. After this command the gimbal manager should go back to manual input if available, and otherwise assume a neutral position. | Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals). | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_ROI_SYSID = 198,  // Mount tracks system with specified system ID. Determination of target vehicle position may be done with GLOBAL_POSITION_INT or any other means. This command can be sent to a gimbal manager but not to a gimbal device. A gimbal device is not to react to this message. | System ID | Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals). | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_CONTROL_VIDEO = 200,  // Control onboard camera system. | Camera ID (-1 for all) | Transmission: 0: disabled, 1: enabled compressed, 2: enabled raw | Transmission mode: 0: video stream, >0: single images every n seconds | Recording: 0: disabled, 1: enabled compressed, 2: enabled raw | Empty | Empty | Empty
    MAV_CMD_DO_SET_ROI = 201,  // Sets the region of interest (ROI) for a sensor set or the vehicle itself. This can then be used by the vehicle's control system to control the vehicle attitude and the attitude of various sensors such as cameras. | Region of interest mode. | Waypoint index/ target ID (depends on param 1). | Region of interest index. (allows a vehicle to manage multiple ROI's) | Empty | MAV_ROI_WPNEXT: pitch offset from next waypoint, MAV_ROI_LOCATION: latitude | MAV_ROI_WPNEXT: roll offset from next waypoint, MAV_ROI_LOCATION: longitude | MAV_ROI_WPNEXT: yaw offset from next waypoint, MAV_ROI_LOCATION: altitude
    MAV_CMD_DO_DIGICAM_CONFIGURE = 202,  // Configure digital camera. This is a fallback message for systems that have not yet implemented PARAM_EXT_XXX messages and camera definition files (see https://mavlink.io/en/services/camera_def.html ). | Modes: P, TV, AV, M, Etc. | Shutter speed: Divisor number for one second. | Aperture: F stop number. | ISO number e.g. 80, 100, 200, Etc. | Exposure type enumerator. | Command Identity. | Main engine cut-off time before camera trigger. (0 means no cut-off)
    MAV_CMD_DO_DIGICAM_CONTROL = 203,  // Control digital camera. This is a fallback message for systems that have not yet implemented PARAM_EXT_XXX messages and camera definition files (see https://mavlink.io/en/services/camera_def.html ). | Session control e.g. show/hide lens | Zoom's absolute position | Zooming step value to offset zoom from the current position | Focus Locking, Unlocking or Re-locking | Shooting Command | Command Identity | Test shot identifier. If set to 1, image will only be captured, but not counted towards internal frame count.
    MAV_CMD_DO_MOUNT_CONFIGURE = 204,  // Mission command to configure a camera or antenna mount | Mount operation mode | stabilize roll? (1 = yes, 0 = no) | stabilize pitch? (1 = yes, 0 = no) | stabilize yaw? (1 = yes, 0 = no) | roll input (0 = angle body frame, 1 = angular rate, 2 = angle absolute frame) | pitch input (0 = angle body frame, 1 = angular rate, 2 = angle absolute frame) | yaw input (0 = angle body frame, 1 = angular rate, 2 = angle absolute frame)
    MAV_CMD_DO_MOUNT_CONTROL = 205,  // Mission command to control a camera or antenna mount | pitch depending on mount mode (degrees or degrees/second depending on pitch input). | roll depending on mount mode (degrees or degrees/second depending on roll input). | yaw depending on mount mode (degrees or degrees/second depending on yaw input). | altitude depending on mount mode. | latitude, set if appropriate mount mode. | longitude, set if appropriate mount mode. | Mount mode.
    MAV_CMD_DO_SET_CAM_TRIGG_DIST = 206,  // Mission command to set camera trigger distance for this flight. The camera is triggered each time this distance is exceeded. This command can also be used to set the shutter integration time for the camera. | Camera trigger distance. 0 to stop triggering. | Camera shutter integration time. -1 or 0 to ignore | Trigger camera once immediately. (0 = no trigger, 1 = trigger) | Empty | Empty | Empty | Empty
    MAV_CMD_DO_FENCE_ENABLE = 207,  // Mission command to enable the geofence | enable? (0=disable, 1=enable, 2=disable_floor_only) | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_PARACHUTE = 208,  // Mission item/command to release a parachute or enable/disable auto release. | Action | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_MOTOR_TEST = 209,  // Command to perform motor test. | Motor instance number (from 1 to max number of motors on the vehicle). | Throttle type (whether the Throttle Value in param3 is a percentage, PWM value, etc.) | Throttle value. | Timeout between tests that are run in sequence. | Motor count. Number of motors to test in sequence: 0/1=one motor, 2= two motors, etc. The Timeout (param4) is used between tests. | Motor test order. | Empty
    MAV_CMD_DO_INVERTED_FLIGHT = 210,  // Change to/from inverted flight. | Inverted flight. (0=normal, 1=inverted) | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_GRIPPER = 211,  // Mission command to operate a gripper. | Gripper instance number. | Gripper action to perform. | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_AUTOTUNE_ENABLE = 212,  // Enable/disable autotune. | Enable (1: enable, 0:disable). | Specify which axis are autotuned. 0 indicates autopilot default settings. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_NAV_SET_YAW_SPEED = 213,  // Sets a desired vehicle turn angle and speed change. | Yaw angle to adjust steering by. | Speed. | Final angle. (0=absolute, 1=relative) | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_CAM_TRIGG_INTERVAL = 214,  // Mission command to set camera trigger interval for this flight. If triggering is enabled, the camera is triggered each time this interval expires. This command can also be used to set the shutter integration time for the camera. | Camera trigger cycle time. -1 or 0 to ignore. | Camera shutter integration time. Should be less than trigger cycle time. -1 or 0 to ignore. | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_RESUME_REPEAT_DIST = 215,  // Set the distance to be repeated on mission resume | Distance. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_DO_SPRAYER = 216,  // Control attached liquid sprayer | 0: disable sprayer. 1: enable sprayer. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_DO_SEND_SCRIPT_MESSAGE = 217,  // Pass instructions onto scripting, a script should be checking for a new command | uint16 ID value to be passed to scripting | float value to be passed to scripting | float value to be passed to scripting | float value to be passed to scripting | Empty. | Empty. | Empty.
    MAV_CMD_DO_AUX_FUNCTION = 218,  // Execute auxiliary function | Auxiliary Function. | Switch Level. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_DO_MOUNT_CONTROL_QUAT = 220,  // Mission command to control a camera or antenna mount, using a quaternion as reference. | quaternion param q1, w (1 in null-rotation) | quaternion param q2, x (0 in null-rotation) | quaternion param q3, y (0 in null-rotation) | quaternion param q4, z (0 in null-rotation) | Empty | Empty | Empty
    MAV_CMD_DO_GUIDED_MASTER = 221,  // set id of master controller | System ID | Component ID | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_GUIDED_LIMITS = 222,  // Set limits for external control | Timeout - maximum time that external controller will be allowed to control vehicle. 0 means no timeout. | Altitude (MSL) min - if vehicle moves below this alt, the command will be aborted and the mission will continue. 0 means no lower altitude limit. | Altitude (MSL) max - if vehicle moves above this alt, the command will be aborted and the mission will continue. 0 means no upper altitude limit. | Horizontal move limit - if vehicle moves more than this distance from its location at the moment the command was executed, the command will be aborted and the mission will continue. 0 means no horizontal move limit. | Empty | Empty | Empty
    MAV_CMD_DO_ENGINE_CONTROL = 223,  // Control vehicle engine. This is interpreted by the vehicles engine controller to change the target engine state. It is intended for vehicles with internal combustion engines | 0: Stop engine, 1:Start Engine | 0: Warm start, 1:Cold start. Controls use of choke where applicable | Height delay. This is for commanding engine start only after the vehicle has gained the specified height. Used in VTOL vehicles during takeoff to start engine after the aircraft is off the ground. Zero for no delay. | Empty | Empty | Empty | Empty
    MAV_CMD_DO_SET_MISSION_CURRENT = 224,  // Set the mission item with sequence number seq as current item. This means that the MAV will continue to this mission item on the shortest path (not following the mission items in-between). | Mission sequence value to set | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_DO_LAST = 240,  // NOP - This command is only used to mark the upper limit of the DO commands in the enumeration | Empty | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_PREFLIGHT_CALIBRATION = 241,  // Trigger calibration. This command will be only accepted if in pre-flight mode. Except for Temperature Calibration, only one sensor should be set in a single message and all others should be zero. | 1: gyro calibration, 3: gyro temperature calibration | 1: magnetometer calibration | 1: ground pressure calibration | 1: radio RC calibration, 2: RC trim calibration | 1: accelerometer calibration, 2: board level calibration, 3: accelerometer temperature calibration, 4: simple accelerometer calibration | 1: APM: compass/motor interference calibration (PX4: airspeed calibration, deprecated), 2: airspeed calibration | 1: ESC calibration, 3: barometer temperature calibration
    MAV_CMD_PREFLIGHT_SET_SENSOR_OFFSETS = 242,  // Set sensor offsets. This command will be only accepted if in pre-flight mode. | Sensor to adjust the offsets for: 0: gyros, 1: accelerometer, 2: magnetometer, 3: barometer, 4: optical flow, 5: second magnetometer, 6: third magnetometer | X axis offset (or generic dimension 1), in the sensor's raw units | Y axis offset (or generic dimension 2), in the sensor's raw units | Z axis offset (or generic dimension 3), in the sensor's raw units | Generic dimension 4, in the sensor's raw units | Generic dimension 5, in the sensor's raw units | Generic dimension 6, in the sensor's raw units
    MAV_CMD_PREFLIGHT_UAVCAN = 243,  // Trigger UAVCAN configuration (actuator ID assignment and direction mapping). Note that this maps to the legacy UAVCAN v0 function UAVCAN_ENUMERATE, which is intended to be executed just once during initial vehicle configuration (it is not a normal pre-flight command and has been poorly named). | 1: Trigger actuator ID assignment and direction mapping. 0: Cancel command. | Reserved | Reserved | Reserved | Reserved | Reserved | Reserved
    MAV_CMD_PREFLIGHT_STORAGE = 245,  // Request storage of different parameter values and logs. This command will be only accepted if in pre-flight mode. | Action to perform on the persistent parameter storage | Action to perform on the persistent mission storage | Onboard logging: 0: Ignore, 1: Start default rate logging, -1: Stop logging, > 1: logging rate (e.g. set to 1000 for 1000 Hz logging) | Reserved | Empty | Empty | Empty
    MAV_CMD_PREFLIGHT_REBOOT_SHUTDOWN = 246,  // Request the reboot or shutdown of system components. | 0: Do nothing for autopilot, 1: Reboot autopilot, 2: Shutdown autopilot, 3: Reboot autopilot and keep it in the bootloader until upgraded. | 0: Do nothing for onboard computer, 1: Reboot onboard computer, 2: Shutdown onboard computer, 3: Reboot onboard computer and keep it in the bootloader until upgraded. | 0: Do nothing for component, 1: Reboot component, 2: Shutdown component, 3: Reboot component and keep it in the bootloader until upgraded | MAVLink Component ID targeted in param3 (0 for all components). | Reserved (set to 0) | Reserved (set to 0) | WIP: ID (e.g. camera ID -1 for all IDs)
    MAV_CMD_OVERRIDE_GOTO = 252,  // Override current mission with command to pause mission, pause mission and move to position, continue/resume mission. When param 1 indicates that the mission is paused (MAV_GOTO_DO_HOLD), param 2 defines whether it holds in place or moves to another position. | MAV_GOTO_DO_HOLD: pause mission and either hold or move to specified position (depending on param2), MAV_GOTO_DO_CONTINUE: resume mission. | MAV_GOTO_HOLD_AT_CURRENT_POSITION: hold at current position, MAV_GOTO_HOLD_AT_SPECIFIED_POSITION: hold at specified position. | Coordinate frame of hold point. | Desired yaw angle. | Latitude/X position. | Longitude/Y position. | Altitude/Z position.
    MAV_CMD_OBLIQUE_SURVEY = 260,  // Mission command to set a Camera Auto Mount Pivoting Oblique Survey (Replaces CAM_TRIGG_DIST for this purpose). The camera is triggered each time this distance is exceeded, then the mount moves to the next position. Params 4~6 set-up the angle limits and number of positions for oblique survey, where mount-enabled vehicles automatically roll the camera between shots to emulate an oblique camera setup (providing an increased HFOV). This command can also be used to set the shutter integration time for the camera. | Camera trigger distance. 0 to stop triggering. | Camera shutter integration time. 0 to ignore | The minimum interval in which the camera is capable of taking subsequent pictures repeatedly. 0 to ignore. | Total number of roll positions at which the camera will capture photos (images captures spread evenly across the limits defined by param5). | Angle limits that the camera can be rolled to left and right of center. | Fixed pitch angle that the camera will hold in oblique mode if the mount is actuated in the pitch axis. | Empty
    MAV_CMD_MISSION_START = 300,  // start running a mission | first_item: the first mission item to run | last_item:  the last mission item to run (after this item is run, the mission ends) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_ACTUATOR_TEST = 310,  // Actuator testing command. This is similar to MAV_CMD_DO_MOTOR_TEST but operates on the level of output functions, i.e. it is possible to test Motor1 independent from which output it is configured on. Autopilots typically refuse this command while armed. | Output value: 1 means maximum positive output, 0 to center servos or minimum motor thrust (expected to spin), -1 for maximum negative (if not supported by the motors, i.e. motor is not reversible, smaller than 0 maps to NaN). And NaN maps to disarmed (stop the motors). | Timeout after which the test command expires and the output is restored to the previous value. A timeout has to be set for safety reasons. A timeout of 0 means to restore the previous value immediately. | Reserved (default:0) | Reserved (default:0) | Actuator Output function | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_CONFIGURE_ACTUATOR = 311,  // Actuator configuration command. | Actuator configuration action | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Actuator Output function | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_COMPONENT_ARM_DISARM = 400,  // Arms / Disarms a component | 0: disarm, 1: arm | 0: arm-disarm unless prevented by safety checks (i.e. when landed), 21196: force arming/disarming (e.g. allow arming to override preflight checks and disarming in flight) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_RUN_PREARM_CHECKS = 401,  // Instructs system to run pre-arm checks. This command should return MAV_RESULT_TEMPORARILY_REJECTED in the case the system is armed, otherwise MAV_RESULT_ACCEPTED. Note that the return value from executing this command does not indicate whether the vehicle is armable or not, just whether the system has successfully run/is currently running the checks.  The result of the checks is reflected in the SYS_STATUS message. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_ILLUMINATOR_ON_OFF = 405,  // Turns illuminators ON/OFF. An illuminator is a light source that is used for lighting up dark areas external to the sytstem: e.g. a torch or searchlight (as opposed to a light source for illuminating the system itself, e.g. an indicator light). | 0: Illuminators OFF, 1: Illuminators ON | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_GET_HOME_POSITION = 410,  // Request the home position from the vehicle.	  The vehicle will ACK the command and then emit the HOME_POSITION message. | Reserved | Reserved | Reserved | Reserved | Reserved | Reserved | Reserved
    MAV_CMD_INJECT_FAILURE = 420,  // Inject artificial failure for testing purposes. Note that autopilots should implement an additional protection before accepting this command such as a specific param setting. | The unit which is affected by the failure. | The type how the failure manifests itself. | Instance affected by failure (0 to signal all). | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_START_RX_PAIR = 500,  // Starts receiver pairing. | 0:Spektrum. | RC type. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_GET_MESSAGE_INTERVAL = 510,  //           Request the interval between messages for a particular MAVLink message ID.          The receiver should ACK the command and then emit its response in a MESSAGE_INTERVAL message.         | The MAVLink message ID | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_SET_MESSAGE_INTERVAL = 511,  // Set the interval between messages for a particular MAVLink message ID. This interface replaces REQUEST_DATA_STREAM. | The MAVLink message ID | The interval between two messages. Set to -1 to disable and 0 to request default rate. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Target address of message stream (if message has target address fields). 0: Flight-stack default (recommended), 1: address of requestor, 2: broadcast.
    MAV_CMD_REQUEST_MESSAGE = 512,  // Request the target system(s) emit a single instance of a specified message (i.e. a "one-shot" version of MAV_CMD_SET_MESSAGE_INTERVAL). | The MAVLink message ID of the requested message. | Use for index ID, if required. Otherwise, the use of this parameter (if any) must be defined in the requested message. By default assumed not used (0). | The use of this parameter (if any), must be defined in the requested message. By default assumed not used (0). | The use of this parameter (if any), must be defined in the requested message. By default assumed not used (0). | The use of this parameter (if any), must be defined in the requested message. By default assumed not used (0). | The use of this parameter (if any), must be defined in the requested message. By default assumed not used (0). | Target address for requested message (if message has target address fields). 0: Flight-stack default, 1: address of requestor, 2: broadcast.
    MAV_CMD_REQUEST_PROTOCOL_VERSION = 519,  // Request MAVLink protocol version compatibility. All receivers should ACK the command and then emit their capabilities in an PROTOCOL_VERSION message | 1: Request supported protocol versions by all nodes on the network | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_AUTOPILOT_CAPABILITIES = 520,  // Request autopilot capabilities. The receiver should ACK the command and then emit its capabilities in an AUTOPILOT_VERSION message | 1: Request autopilot version | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_CAMERA_INFORMATION = 521,  // Request camera information (CAMERA_INFORMATION). | 0: No action 1: Request camera capabilities | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_CAMERA_SETTINGS = 522,  // Request camera settings (CAMERA_SETTINGS). | 0: No Action 1: Request camera settings | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_STORAGE_INFORMATION = 525,  // Request storage information (STORAGE_INFORMATION). Use the command's target_component to target a specific component's storage. | Storage ID (0 for all, 1 for first, 2 for second, etc.) | 0: No Action 1: Request storage information | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_STORAGE_FORMAT = 526,  // Format a storage medium. Once format is complete, a STORAGE_INFORMATION message is sent. Use the command's target_component to target a specific component's storage. | Storage ID (1 for first, 2 for second, etc.) | Format storage (and reset image log). 0: No action 1: Format storage | Reset Image Log (without formatting storage medium). This will reset CAMERA_CAPTURE_STATUS.image_count and CAMERA_IMAGE_CAPTURED.image_index. 0: No action 1: Reset Image Log | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_CAMERA_CAPTURE_STATUS = 527,  // Request camera capture status (CAMERA_CAPTURE_STATUS) | 0: No Action 1: Request camera capture status | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_FLIGHT_INFORMATION = 528,  // Request flight information (FLIGHT_INFORMATION) | 1: Request flight information | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_RESET_CAMERA_SETTINGS = 529,  // Reset all camera settings to Factory Default | 0: No Action 1: Reset all settings | Reserved (all remaining params) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_SET_CAMERA_MODE = 530,  // Set camera running mode. Use NaN for reserved values. GCS will send a MAV_CMD_REQUEST_VIDEO_STREAM_STATUS command after a mode change if the camera supports video streaming. | Reserved (Set to 0) | Camera mode | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_SET_CAMERA_ZOOM = 531,  // Set camera zoom. Camera must respond with a CAMERA_SETTINGS message (on success). | Zoom type | Zoom value. The range of valid values depend on the zoom type. | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_SET_CAMERA_FOCUS = 532,  // Set camera focus. Camera must respond with a CAMERA_SETTINGS message (on success). | Focus type | Focus value | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_SET_STORAGE_USAGE = 533,  // Set that a particular storage is the preferred location for saving photos, videos, and/or other media (e.g. to set that an SD card is used for storing videos).          There can only be one preferred save location for each particular media type: setting a media usage flag will clear/reset that same flag if set on any other storage.          If no flag is set the system should use its default storage.          A target system can choose to always use default storage, in which case it should ACK the command with MAV_RESULT_UNSUPPORTED.          A target system can choose to not allow a particular storage to be set as preferred storage, in which case it should ACK the command with MAV_RESULT_DENIED. | Storage ID (1 for first, 2 for second, etc.) | Usage flags | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_JUMP_TAG = 600,  // Tagged jump target. Can be jumped to with MAV_CMD_DO_JUMP_TAG. | Tag. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_JUMP_TAG = 601,  // Jump to the matching tag in the mission list. Repeat this action for the specified number of times. A mission should contain a single matching tag for each jump. If this is not the case then a jump to a missing tag should complete the mission, and a jump where there are multiple matching tags should always select the one with the lowest mission sequence number. | Target tag to jump to. | Repeat count. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_GIMBAL_MANAGER_PITCHYAW = 1000,  // High level setpoint to be sent to a gimbal manager to set a gimbal attitude. It is possible to set combinations of the values below. E.g. an angle as well as a desired angular rate can be used to get to this angle at a certain angular rate, or an angular rate only will result in continuous turning. NaN is to be used to signal unset. Note: a gimbal is never to react to this command but only the gimbal manager. | Pitch angle (positive to pitch up, relative to vehicle for FOLLOW mode, relative to world horizon for LOCK mode). | Yaw angle (positive to yaw to the right, relative to vehicle for FOLLOW mode, absolute to North for LOCK mode). | Pitch rate (positive to pitch up). | Yaw rate (positive to yaw to the right). | Gimbal manager flags to use. | Reserved (default:0) | Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals).
    MAV_CMD_DO_GIMBAL_MANAGER_CONFIGURE = 1001,  // Gimbal configuration to set which sysid/compid is in primary and secondary control. | Sysid for primary control (0: no one in control, -1: leave unchanged, -2: set itself in control (for missions where the own sysid is still unknown), -3: remove control if currently in control). | Compid for primary control (0: no one in control, -1: leave unchanged, -2: set itself in control (for missions where the own sysid is still unknown), -3: remove control if currently in control). | Sysid for secondary control (0: no one in control, -1: leave unchanged, -2: set itself in control (for missions where the own sysid is still unknown), -3: remove control if currently in control). | Compid for secondary control (0: no one in control, -1: leave unchanged, -2: set itself in control (for missions where the own sysid is still unknown), -3: remove control if currently in control). | Reserved (default:0) | Reserved (default:0) | Component ID of gimbal device to address (or 1-6 for non-MAVLink gimbal), 0 for all gimbal device components. Send command multiple times for more than one gimbal (but not all gimbals).
    MAV_CMD_IMAGE_START_CAPTURE = 2000,  // Start image capture sequence. Sends CAMERA_IMAGE_CAPTURED after each capture. Use NaN for reserved values. | Reserved (Set to 0) | Desired elapsed time between two consecutive pictures (in seconds). Minimum values depend on hardware (typically greater than 2 seconds). | Total number of images to capture. 0 to capture forever/until MAV_CMD_IMAGE_STOP_CAPTURE. | Capture sequence number starting from 1. This is only valid for single-capture (param3 == 1), otherwise set to 0. Increment the capture ID for each capture command to prevent double captures when a command is re-transmitted. | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN)
    MAV_CMD_IMAGE_STOP_CAPTURE = 2001,  // Stop image capture sequence Use NaN for reserved values. | Reserved (Set to 0) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_REQUEST_CAMERA_IMAGE_CAPTURE = 2002,  // Re-request a CAMERA_IMAGE_CAPTURED message. | Sequence number for missing CAMERA_IMAGE_CAPTURED message | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:0) | Reserved (default:0) | Reserved (default:NaN)
    MAV_CMD_DO_TRIGGER_CONTROL = 2003,  // Enable or disable on-board camera triggering system. | Trigger enable/disable (0 for disable, 1 for start), -1 to ignore | 1 to reset the trigger sequence, -1 or 0 to ignore | 1 to pause triggering, but without switching the camera off or retracting it. -1 to ignore | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_CAMERA_TRACK_POINT = 2004,  // If the camera supports point visual tracking (CAMERA_CAP_FLAGS_HAS_TRACKING_POINT is set), this command allows to initiate the tracking. | Point to track x value (normalized 0..1, 0 is left, 1 is right). | Point to track y value (normalized 0..1, 0 is top, 1 is bottom). | Point radius (normalized 0..1, 0 is image left, 1 is image right). | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_CAMERA_TRACK_RECTANGLE = 2005,  // If the camera supports rectangle visual tracking (CAMERA_CAP_FLAGS_HAS_TRACKING_RECTANGLE is set), this command allows to initiate the tracking. | Top left corner of rectangle x value (normalized 0..1, 0 is left, 1 is right). | Top left corner of rectangle y value (normalized 0..1, 0 is top, 1 is bottom). | Bottom right corner of rectangle x value (normalized 0..1, 0 is left, 1 is right). | Bottom right corner of rectangle y value (normalized 0..1, 0 is top, 1 is bottom). | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_CAMERA_STOP_TRACKING = 2010,  // Stops ongoing tracking. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_VIDEO_START_CAPTURE = 2500,  // Starts video capture (recording). | Video Stream ID (0 for all streams) | Frequency CAMERA_CAPTURE_STATUS messages should be sent while recording (0 for no messages, otherwise frequency) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN)
    MAV_CMD_VIDEO_STOP_CAPTURE = 2501,  // Stop the current video capture (recording). | Video Stream ID (0 for all streams) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN)
    MAV_CMD_VIDEO_START_STREAMING = 2502,  // Start video streaming | Video Stream ID (0 for all streams, 1 for first, 2 for second, etc.) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_VIDEO_STOP_STREAMING = 2503,  // Stop the given video stream | Video Stream ID (0 for all streams, 1 for first, 2 for second, etc.) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_VIDEO_STREAM_INFORMATION = 2504,  // Request video stream information (VIDEO_STREAM_INFORMATION) | Video Stream ID (0 for all streams, 1 for first, 2 for second, etc.) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_REQUEST_VIDEO_STREAM_STATUS = 2505,  // Request video stream status (VIDEO_STREAM_STATUS) | Video Stream ID (0 for all streams, 1 for first, 2 for second, etc.) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_LOGGING_START = 2510,  // Request to start streaming logging data over MAVLink (see also LOGGING_DATA message) | Format: 0: ULog | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0)
    MAV_CMD_LOGGING_STOP = 2511,  // Request to stop streaming log data over MAVLink | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0)
    MAV_CMD_AIRFRAME_CONFIGURATION = 2520,  //  | Landing gear ID (default: 0, -1 for all) | Landing gear position (Down: 0, Up: 1, NaN for no change) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN) | Reserved (default:NaN)
    MAV_CMD_CONTROL_HIGH_LATENCY = 2600,  // Request to start/stop transmitting over the high latency telemetry | Control transmission over high latency telemetry (0: stop, 1: start) | Empty | Empty | Empty | Empty | Empty | Empty
    MAV_CMD_PANORAMA_CREATE = 2800,  // Create a panorama at the current position | Viewing angle horizontal of the panorama (+- 0.5 the total angle) | Viewing angle vertical of panorama. | Speed of the horizontal rotation. | Speed of the vertical rotation. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_VTOL_TRANSITION = 3000,  // Request VTOL transition | The target VTOL state. For normal transitions, only MAV_VTOL_STATE_MC and MAV_VTOL_STATE_FW can be used. | Force immediate transition to the specified MAV_VTOL_STATE. 1: Force immediate, 0: normal transition. Can be used, for example, to trigger an emergency "Quadchute". Caution: Can be dangerous/damage vehicle, depending on autopilot implementation of this command. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_ARM_AUTHORIZATION_REQUEST = 3001,  // Request authorization to arm the vehicle to a external entity, the arm authorizer is responsible to request all data that is needs from the vehicle before authorize or deny the request. If approved the progress of command_ack message should be set with period of time that this authorization is valid in seconds or in case it was denied it should be set with one of the reasons in ARM_AUTH_DENIED_REASON.         | Vehicle system id, this way ground station can request arm authorization on behalf of any vehicle | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_SET_GUIDED_SUBMODE_STANDARD = 4000,  // This command sets the submode to standard guided when vehicle is in guided mode. The vehicle holds position and altitude and the user can input the desired velocities along all three axes.                   | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_SET_GUIDED_SUBMODE_CIRCLE = 4001,  // This command sets submode circle when vehicle is in guided mode. Vehicle flies along a circle facing the center of the circle. The user can input the velocity along the circle and change the radius. If no input is given the vehicle will hold position.                   | Radius of desired circle in CIRCLE_MODE | User defined | User defined | User defined | Target latitude of center of circle in CIRCLE_MODE | Target longitude of center of circle in CIRCLE_MODE | Reserved (default:0)
    MAV_CMD_CONDITION_GATE = 4501,  // Delay mission state machine until gate has been reached. | Geometry: 0: orthogonal to path between previous and next waypoint. | Altitude: 0: ignore altitude | Empty | Empty | Latitude | Longitude | Altitude
    MAV_CMD_NAV_FENCE_RETURN_POINT = 5000,  // Fence return point (there can only be one such point in a geofence definition). If rally points are supported they should be used instead. | Reserved | Reserved | Reserved | Reserved | Latitude | Longitude | Altitude
    MAV_CMD_NAV_FENCE_POLYGON_VERTEX_INCLUSION = 5001,  // Fence vertex for an inclusion polygon (the polygon must not be self-intersecting). The vehicle must stay within this area. Minimum of 3 vertices required.         | Polygon vertex count | Vehicle must be inside ALL inclusion zones in a single group, vehicle must be inside at least one group, must be the same for all points in each polygon | Reserved | Reserved | Latitude | Longitude | Reserved
    MAV_CMD_NAV_FENCE_POLYGON_VERTEX_EXCLUSION = 5002,  // Fence vertex for an exclusion polygon (the polygon must not be self-intersecting). The vehicle must stay outside this area. Minimum of 3 vertices required.         | Polygon vertex count | Reserved | Reserved | Reserved | Latitude | Longitude | Reserved
    MAV_CMD_NAV_FENCE_CIRCLE_INCLUSION = 5003,  // Circular fence area. The vehicle must stay inside this area.         | Radius. | Vehicle must be inside ALL inclusion zones in a single group, vehicle must be inside at least one group | Reserved | Reserved | Latitude | Longitude | Reserved
    MAV_CMD_NAV_FENCE_CIRCLE_EXCLUSION = 5004,  // Circular fence area. The vehicle must stay outside this area.         | Radius. | Reserved | Reserved | Reserved | Latitude | Longitude | Reserved
    MAV_CMD_NAV_RALLY_POINT = 5100,  // Rally point. You can have multiple rally points defined.         | Reserved | Reserved | Reserved | Reserved | Latitude | Longitude | Altitude
    MAV_CMD_UAVCAN_GET_NODE_INFO = 5200,  // Commands the vehicle to respond with a sequence of messages UAVCAN_NODE_INFO, one message per every UAVCAN node that is online. Note that some of the response messages can be lost, which the receiver can detect easily by checking whether every received UAVCAN_NODE_STATUS has a matching message UAVCAN_NODE_INFO received earlier; if not, this command should be sent again in order to request re-transmission of the node information messages. | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0)
    MAV_CMD_DO_ADSB_OUT_IDENT = 10001,  // Trigger the start of an ADSB-out IDENT. This should only be used when requested to do so by an Air Traffic Controller in controlled airspace. This starts the IDENT which is then typically held for 18 seconds by the hardware per the Mode A, C, and S transponder spec. | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0) | Reserved (set to 0)
    MAV_CMD_PAYLOAD_PREPARE_DEPLOY = 30001,  // Deploy payload on a Lat / Lon / Alt position. This includes the navigation to reach the required release position and velocity. | Operation mode. 0: prepare single payload deploy (overwriting previous requests), but do not execute it. 1: execute payload deploy immediately (rejecting further deploy commands during execution, but allowing abort). 2: add payload deploy to existing deployment list. | Desired approach vector in compass heading. A negative value indicates the system can define the approach vector at will. | Desired ground speed at release time. This can be overridden by the airframe in case it needs to meet minimum airspeed. A negative value indicates the system can define the ground speed at will. | Minimum altitude clearance to the release position. A negative value indicates the system can define the clearance at will. | Latitude. Note, if used in MISSION_ITEM (deprecated) the units are degrees (unscaled) | Longitude. Note, if used in MISSION_ITEM (deprecated) the units are degrees (unscaled) | Altitude (MSL)
    MAV_CMD_PAYLOAD_CONTROL_DEPLOY = 30002,  // Control the payload deployment. | Operation mode. 0: Abort deployment, continue normal mission. 1: switch to payload deployment mode. 100: delete first payload deployment request. 101: delete all payload deployment requests. | Reserved | Reserved | Reserved | Reserved | Reserved | Reserved
    MAV_CMD_WAYPOINT_USER_1 = 31000,  // User defined waypoint item. Ground Station will show the Vehicle as flying through this item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_WAYPOINT_USER_2 = 31001,  // User defined waypoint item. Ground Station will show the Vehicle as flying through this item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_WAYPOINT_USER_3 = 31002,  // User defined waypoint item. Ground Station will show the Vehicle as flying through this item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_WAYPOINT_USER_4 = 31003,  // User defined waypoint item. Ground Station will show the Vehicle as flying through this item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_WAYPOINT_USER_5 = 31004,  // User defined waypoint item. Ground Station will show the Vehicle as flying through this item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_SPATIAL_USER_1 = 31005,  // User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_SPATIAL_USER_2 = 31006,  // User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_SPATIAL_USER_3 = 31007,  // User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_SPATIAL_USER_4 = 31008,  // User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_SPATIAL_USER_5 = 31009,  // User defined spatial item. Ground Station will not show the Vehicle as flying through this item. Example: ROI item. | User defined | User defined | User defined | User defined | Latitude unscaled | Longitude unscaled | Altitude (MSL)
    MAV_CMD_USER_1 = 31010,  // User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. | User defined | User defined | User defined | User defined | User defined | User defined | User defined
    MAV_CMD_USER_2 = 31011,  // User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. | User defined | User defined | User defined | User defined | User defined | User defined | User defined
    MAV_CMD_USER_3 = 31012,  // User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. | User defined | User defined | User defined | User defined | User defined | User defined | User defined
    MAV_CMD_USER_4 = 31013,  // User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. | User defined | User defined | User defined | User defined | User defined | User defined | User defined
    MAV_CMD_USER_5 = 31014,  // User defined command. Ground Station will not show the Vehicle as flying through this item. Example: MAV_CMD_DO_SET_PARAMETER item. | User defined | User defined | User defined | User defined | User defined | User defined | User defined
    MAV_CMD_CAN_FORWARD = 32000,  // Request forwarding of CAN packets from the given CAN bus to this component. CAN Frames are sent using CAN_FRAME and CANFD_FRAME messages | Bus number (0 to disable forwarding, 1 for first bus, 2 for 2nd bus, 3 for 3rd bus). | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_POWER_OFF_INITIATED = 42000,  // A system wide power-off event has been initiated. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_SOLO_BTN_FLY_CLICK = 42001,  // FLY button has been clicked. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_SOLO_BTN_FLY_HOLD = 42002,  // FLY button has been held for 1.5 seconds. | Takeoff altitude. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_SOLO_BTN_PAUSE_CLICK = 42003,  // PAUSE button has been clicked. | 1 if Solo is in a shot mode, 0 otherwise. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_FIXED_MAG_CAL = 42004,  // Magnetometer calibration based on fixed position        in earth field given by inclination, declination and intensity. | Magnetic declination. | Magnetic inclination. | Magnetic intensity. | Yaw. | Empty. | Empty. | Empty.
    MAV_CMD_FIXED_MAG_CAL_FIELD = 42005,  // Magnetometer calibration based on fixed expected field values. | Field strength X. | Field strength Y. | Field strength Z. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_FIXED_MAG_CAL_YAW = 42006,  // Magnetometer calibration based on provided known yaw. This allows for fast calibration using WMM field tables in the vehicle, given only the known yaw of the vehicle. If Latitude and longitude are both zero then use the current vehicle location. | Yaw of vehicle in earth frame. | CompassMask, 0 for all. | Latitude. | Longitude. | Empty. | Empty. | Empty.
    MAV_CMD_SET_EKF_SOURCE_SET = 42007,  // Set EKF sensor source set. | Source Set Id. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_DO_START_MAG_CAL = 42424,  // Initiate a magnetometer calibration. | Bitmask of magnetometers to calibrate. Use 0 to calibrate all sensors that can be started (sensors may not start if disabled, unhealthy, etc.). The command will NACK if calibration does not start for a sensor explicitly specified by the bitmask. | Automatically retry on failure (0=no retry, 1=retry). | Save without user input (0=require input, 1=autosave). | Delay. | Autoreboot (0=user reboot, 1=autoreboot). | Empty. | Empty.
    MAV_CMD_DO_ACCEPT_MAG_CAL = 42425,  // Accept a magnetometer calibration. | Bitmask of magnetometers that calibration is accepted (0 means all). | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_DO_CANCEL_MAG_CAL = 42426,  // Cancel a running magnetometer calibration. | Bitmask of magnetometers to cancel a running calibration (0 means all). | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_SET_FACTORY_TEST_MODE = 42427,  // Command autopilot to get into factory test/diagnostic mode. | 0: activate test mode, 1: exit test mode. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_DO_SEND_BANNER = 42428,  // Reply with the version banner. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_ACCELCAL_VEHICLE_POS = 42429,  // Used when doing accelerometer calibration. When sent to the GCS tells it what position to put the vehicle in. When sent to the vehicle says what position the vehicle is in. | Position. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_GIMBAL_RESET = 42501,  // Causes the gimbal to reset and boot as if it was just powered on. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_GIMBAL_AXIS_CALIBRATION_STATUS = 42502,  // Reports progress and success or failure of gimbal axis calibration procedure. | Gimbal axis we're reporting calibration progress for. | Current calibration progress for this axis. | Status of the calibration. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_GIMBAL_REQUEST_AXIS_CALIBRATION = 42503,  // Starts commutation calibration on the gimbal. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_GIMBAL_FULL_RESET = 42505,  // Erases gimbal application and parameters. | Magic number. | Magic number. | Magic number. | Magic number. | Magic number. | Magic number. | Magic number.
    MAV_CMD_DO_WINCH = 42600,  // Command to operate winch. | Winch instance number. | Action to perform. | Length of line to release (negative to wind). | Release rate (negative to wind). | Empty. | Empty. | Empty.
    MAV_CMD_FLASH_BOOTLOADER = 42650,  // Update the bootloader | Empty | Empty | Empty | Empty | Magic number - set to 290876 to actually flash | Empty | Empty
    MAV_CMD_BATTERY_RESET = 42651,  // Reset battery capacity for batteries that accumulate consumed battery via integration. | Bitmask of batteries to reset. Least significant bit is for the first battery. | Battery percentage remaining to set. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DEBUG_TRAP = 42700,  // Issue a trap signal to the autopilot process, presumably to enter the debugger. | Magic number - set to 32451 to actually trap. | Empty. | Empty. | Empty. | Empty. | Empty. | Empty.
    MAV_CMD_SCRIPTING = 42701,  // Control onboard scripting. | Scripting command to execute | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_NAV_SCRIPT_TIME = 42702,  // Scripting command as NAV command with wait for completion. | integer command number (0 to 255) | timeout for operation in seconds. Zero means no timeout (0 to 255) | argument1. | argument2. | Empty | Empty | Empty
    MAV_CMD_NAV_ATTITUDE_TIME = 42703,  // Maintain an attitude for a specified time. | Time to maintain specified attitude and climb rate | Roll angle in degrees (positive is lean right, negative is lean left) | Pitch angle in degrees (positive is lean back, negative is lean forward) | Yaw angle | Climb rate | Empty | Empty
    MAV_CMD_GUIDED_CHANGE_SPEED = 43000,  // Change flight speed at a given rate. This slews the vehicle at a controllable rate between it's previous speed and the new one. (affects GUIDED only. Outside GUIDED, aircraft ignores these commands. Designed for onboard companion-computer command-and-control, not normally operator/GCS control.) | Airspeed or groundspeed. | Target Speed | Acceleration rate, 0 to take effect instantly | Empty | Empty | Empty | Empty
    MAV_CMD_GUIDED_CHANGE_ALTITUDE = 43001,  // Change target altitude at a given rate. This slews the vehicle at a controllable rate between it's previous altitude and the new one. (affects GUIDED only. Outside GUIDED, aircraft ignores these commands. Designed for onboard companion-computer command-and-control, not normally operator/GCS control.) | Empty | Empty | Rate of change, toward new altitude. 0 for maximum rate change. Positive numbers only, as negative numbers will not converge on the new target alt. | Empty | Empty | Empty | Target Altitude
    MAV_CMD_GUIDED_CHANGE_HEADING = 43002,  // Change to target heading at a given rate, overriding previous heading/s. This slews the vehicle at a controllable rate between it's previous heading and the new one. (affects GUIDED only. Exiting GUIDED returns aircraft to normal behaviour defined elsewhere. Designed for onboard companion-computer command-and-control, not normally operator/GCS control.) | course-over-ground or raw vehicle heading. | Target heading. | Maximum centripetal accelearation, ie rate of change,  toward new heading. | Empty | Empty | Empty | Empty
    MAV_CMD_ENUM_END = 43003,  // end marker
} MAV_CMD;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_SCRIPTING_CMD
#define FASTMAVLINK_HAS_ENUM_SCRIPTING_CMD
typedef enum SCRIPTING_CMD {
    SCRIPTING_CMD_REPL_START = 0,  // Start a REPL session. 
    SCRIPTING_CMD_REPL_STOP = 1,  // End a REPL session. 
    SCRIPTING_CMD_STOP = 2,  // Stop execution of scripts. 
    SCRIPTING_CMD_STOP_AND_RESTART = 3,  // Stop execution of scripts and restart. 
    SCRIPTING_CMD_ENUM_END = 4,  // end marker
} SCRIPTING_CMD;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_LIMITS_STATE
#define FASTMAVLINK_HAS_ENUM_LIMITS_STATE
typedef enum LIMITS_STATE {
    LIMITS_INIT = 0,  // Pre-initialization. 
    LIMITS_DISABLED = 1,  // Disabled. 
    LIMITS_ENABLED = 2,  // Checking limits. 
    LIMITS_TRIGGERED = 3,  // A limit has been breached. 
    LIMITS_RECOVERING = 4,  // Taking action e.g. Return/RTL. 
    LIMITS_RECOVERED = 5,  // We're no longer in breach of a limit. 
    LIMITS_STATE_ENUM_END = 6,  // end marker
} LIMITS_STATE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_LIMIT_MODULE
#define FASTMAVLINK_HAS_ENUM_LIMIT_MODULE
typedef enum LIMIT_MODULE {
    LIMIT_GPSLOCK = 1,  // Pre-initialization. 
    LIMIT_GEOFENCE = 2,  // Disabled. 
    LIMIT_ALTITUDE = 4,  // Checking limits. 
    LIMIT_MODULE_ENUM_END = 5,  // end marker
} LIMIT_MODULE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_RALLY_FLAGS
#define FASTMAVLINK_HAS_ENUM_RALLY_FLAGS
typedef enum RALLY_FLAGS {
    FAVORABLE_WIND = 1,  // Flag set when requiring favorable winds for landing. 
    LAND_IMMEDIATELY = 2,  // Flag set when plane is to immediately descend to break altitude and land without GCS intervention. Flag not set when plane is to loiter at Rally point until commanded to land. 
    RALLY_FLAGS_ENUM_END = 3,  // end marker
} RALLY_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CAMERA_STATUS_TYPES
#define FASTMAVLINK_HAS_ENUM_CAMERA_STATUS_TYPES
typedef enum CAMERA_STATUS_TYPES {
    CAMERA_STATUS_TYPE_HEARTBEAT = 0,  // Camera heartbeat, announce camera component ID at 1Hz. 
    CAMERA_STATUS_TYPE_TRIGGER = 1,  // Camera image triggered. 
    CAMERA_STATUS_TYPE_DISCONNECT = 2,  // Camera connection lost. 
    CAMERA_STATUS_TYPE_ERROR = 3,  // Camera unknown error. 
    CAMERA_STATUS_TYPE_LOWBATT = 4,  // Camera battery low. Parameter p1 shows reported voltage. 
    CAMERA_STATUS_TYPE_LOWSTORE = 5,  // Camera storage low. Parameter p1 shows reported shots remaining. 
    CAMERA_STATUS_TYPE_LOWSTOREV = 6,  // Camera storage low. Parameter p1 shows reported video minutes remaining. 
    CAMERA_STATUS_TYPES_ENUM_END = 7,  // end marker
} CAMERA_STATUS_TYPES;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_CAMERA_FEEDBACK_FLAGS
#define FASTMAVLINK_HAS_ENUM_CAMERA_FEEDBACK_FLAGS
typedef enum CAMERA_FEEDBACK_FLAGS {
    CAMERA_FEEDBACK_PHOTO = 0,  // Shooting photos, not video. 
    CAMERA_FEEDBACK_VIDEO = 1,  // Shooting video, not stills. 
    CAMERA_FEEDBACK_BADEXPOSURE = 2,  // Unable to achieve requested exposure (e.g. shutter speed too low). 
    CAMERA_FEEDBACK_CLOSEDLOOP = 3,  // Closed loop feedback from camera, we know for sure it has successfully taken a picture. 
    CAMERA_FEEDBACK_OPENLOOP = 4,  // Open loop camera, an image trigger has been requested but we can't know for sure it has successfully taken a picture. 
    CAMERA_FEEDBACK_FLAGS_ENUM_END = 5,  // end marker
} CAMERA_FEEDBACK_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_MODE_GIMBAL
#define FASTMAVLINK_HAS_ENUM_MAV_MODE_GIMBAL
typedef enum MAV_MODE_GIMBAL {
    MAV_MODE_GIMBAL_UNINITIALIZED = 0,  // Gimbal is powered on but has not started initializing yet. 
    MAV_MODE_GIMBAL_CALIBRATING_PITCH = 1,  // Gimbal is currently running calibration on the pitch axis. 
    MAV_MODE_GIMBAL_CALIBRATING_ROLL = 2,  // Gimbal is currently running calibration on the roll axis. 
    MAV_MODE_GIMBAL_CALIBRATING_YAW = 3,  // Gimbal is currently running calibration on the yaw axis. 
    MAV_MODE_GIMBAL_INITIALIZED = 4,  // Gimbal has finished calibrating and initializing, but is relaxed pending reception of first rate command from copter. 
    MAV_MODE_GIMBAL_ACTIVE = 5,  // Gimbal is actively stabilizing. 
    MAV_MODE_GIMBAL_RATE_CMD_TIMEOUT = 6,  // Gimbal is relaxed because it missed more than 10 expected rate command messages in a row. Gimbal will move back to active mode when it receives a new rate command. 
    MAV_MODE_GIMBAL_ENUM_END = 7,  // end marker
} MAV_MODE_GIMBAL;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GIMBAL_AXIS
#define FASTMAVLINK_HAS_ENUM_GIMBAL_AXIS
typedef enum GIMBAL_AXIS {
    GIMBAL_AXIS_YAW = 0,  // Gimbal yaw axis. 
    GIMBAL_AXIS_PITCH = 1,  // Gimbal pitch axis. 
    GIMBAL_AXIS_ROLL = 2,  // Gimbal roll axis. 
    GIMBAL_AXIS_ENUM_END = 3,  // end marker
} GIMBAL_AXIS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GIMBAL_AXIS_CALIBRATION_STATUS
#define FASTMAVLINK_HAS_ENUM_GIMBAL_AXIS_CALIBRATION_STATUS
typedef enum GIMBAL_AXIS_CALIBRATION_STATUS {
    GIMBAL_AXIS_CALIBRATION_STATUS_IN_PROGRESS = 0,  // Axis calibration is in progress. 
    GIMBAL_AXIS_CALIBRATION_STATUS_SUCCEEDED = 1,  // Axis calibration succeeded. 
    GIMBAL_AXIS_CALIBRATION_STATUS_FAILED = 2,  // Axis calibration failed. 
    GIMBAL_AXIS_CALIBRATION_STATUS_ENUM_END = 3,  // end marker
} GIMBAL_AXIS_CALIBRATION_STATUS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GIMBAL_AXIS_CALIBRATION_REQUIRED
#define FASTMAVLINK_HAS_ENUM_GIMBAL_AXIS_CALIBRATION_REQUIRED
typedef enum GIMBAL_AXIS_CALIBRATION_REQUIRED {
    GIMBAL_AXIS_CALIBRATION_REQUIRED_UNKNOWN = 0,  // Whether or not this axis requires calibration is unknown at this time. 
    GIMBAL_AXIS_CALIBRATION_REQUIRED_TRUE = 1,  // This axis requires calibration. 
    GIMBAL_AXIS_CALIBRATION_REQUIRED_FALSE = 2,  // This axis does not require calibration. 
    GIMBAL_AXIS_CALIBRATION_REQUIRED_ENUM_END = 3,  // end marker
} GIMBAL_AXIS_CALIBRATION_REQUIRED;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_HEARTBEAT_STATUS
#define FASTMAVLINK_HAS_ENUM_GOPRO_HEARTBEAT_STATUS
typedef enum GOPRO_HEARTBEAT_STATUS {
    GOPRO_HEARTBEAT_STATUS_DISCONNECTED = 0,  // No GoPro connected. 
    GOPRO_HEARTBEAT_STATUS_INCOMPATIBLE = 1,  // The detected GoPro is not HeroBus compatible. 
    GOPRO_HEARTBEAT_STATUS_CONNECTED = 2,  // A HeroBus compatible GoPro is connected. 
    GOPRO_HEARTBEAT_STATUS_ERROR = 3,  // An unrecoverable error was encountered with the connected GoPro, it may require a power cycle. 
    GOPRO_HEARTBEAT_STATUS_ENUM_END = 4,  // end marker
} GOPRO_HEARTBEAT_STATUS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_HEARTBEAT_FLAGS
#define FASTMAVLINK_HAS_ENUM_GOPRO_HEARTBEAT_FLAGS
typedef enum GOPRO_HEARTBEAT_FLAGS {
    GOPRO_FLAG_RECORDING = 1,  // GoPro is currently recording. 
    GOPRO_HEARTBEAT_FLAGS_ENUM_END = 2,  // end marker
} GOPRO_HEARTBEAT_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_REQUEST_STATUS
#define FASTMAVLINK_HAS_ENUM_GOPRO_REQUEST_STATUS
typedef enum GOPRO_REQUEST_STATUS {
    GOPRO_REQUEST_SUCCESS = 0,  // The write message with ID indicated succeeded. 
    GOPRO_REQUEST_FAILED = 1,  // The write message with ID indicated failed. 
    GOPRO_REQUEST_STATUS_ENUM_END = 2,  // end marker
} GOPRO_REQUEST_STATUS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_COMMAND
#define FASTMAVLINK_HAS_ENUM_GOPRO_COMMAND
typedef enum GOPRO_COMMAND {
    GOPRO_COMMAND_POWER = 0,  // (Get/Set). 
    GOPRO_COMMAND_CAPTURE_MODE = 1,  // (Get/Set). 
    GOPRO_COMMAND_SHUTTER = 2,  // (___/Set). 
    GOPRO_COMMAND_BATTERY = 3,  // (Get/___). 
    GOPRO_COMMAND_MODEL = 4,  // (Get/___). 
    GOPRO_COMMAND_VIDEO_SETTINGS = 5,  // (Get/Set). 
    GOPRO_COMMAND_LOW_LIGHT = 6,  // (Get/Set). 
    GOPRO_COMMAND_PHOTO_RESOLUTION = 7,  // (Get/Set). 
    GOPRO_COMMAND_PHOTO_BURST_RATE = 8,  // (Get/Set). 
    GOPRO_COMMAND_PROTUNE = 9,  // (Get/Set). 
    GOPRO_COMMAND_PROTUNE_WHITE_BALANCE = 10,  // (Get/Set) Hero 3+ Only. 
    GOPRO_COMMAND_PROTUNE_COLOUR = 11,  // (Get/Set) Hero 3+ Only. 
    GOPRO_COMMAND_PROTUNE_GAIN = 12,  // (Get/Set) Hero 3+ Only. 
    GOPRO_COMMAND_PROTUNE_SHARPNESS = 13,  // (Get/Set) Hero 3+ Only. 
    GOPRO_COMMAND_PROTUNE_EXPOSURE = 14,  // (Get/Set) Hero 3+ Only. 
    GOPRO_COMMAND_TIME = 15,  // (Get/Set). 
    GOPRO_COMMAND_CHARGING = 16,  // (Get/Set). 
    GOPRO_COMMAND_ENUM_END = 17,  // end marker
} GOPRO_COMMAND;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_CAPTURE_MODE
#define FASTMAVLINK_HAS_ENUM_GOPRO_CAPTURE_MODE
typedef enum GOPRO_CAPTURE_MODE {
    GOPRO_CAPTURE_MODE_VIDEO = 0,  // Video mode. 
    GOPRO_CAPTURE_MODE_PHOTO = 1,  // Photo mode. 
    GOPRO_CAPTURE_MODE_BURST = 2,  // Burst mode, Hero 3+ only. 
    GOPRO_CAPTURE_MODE_TIME_LAPSE = 3,  // Time lapse mode, Hero 3+ only. 
    GOPRO_CAPTURE_MODE_MULTI_SHOT = 4,  // Multi shot mode, Hero 4 only. 
    GOPRO_CAPTURE_MODE_PLAYBACK = 5,  // Playback mode, Hero 4 only, silver only except when LCD or HDMI is connected to black. 
    GOPRO_CAPTURE_MODE_SETUP = 6,  // Playback mode, Hero 4 only. 
    GOPRO_CAPTURE_MODE_UNKNOWN = 255,  // Mode not yet known. 
    GOPRO_CAPTURE_MODE_ENUM_END = 256,  // end marker
} GOPRO_CAPTURE_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_RESOLUTION
#define FASTMAVLINK_HAS_ENUM_GOPRO_RESOLUTION
typedef enum GOPRO_RESOLUTION {
    GOPRO_RESOLUTION_480p = 0,  // 848 x 480 (480p). 
    GOPRO_RESOLUTION_720p = 1,  // 1280 x 720 (720p). 
    GOPRO_RESOLUTION_960p = 2,  // 1280 x 960 (960p). 
    GOPRO_RESOLUTION_1080p = 3,  // 1920 x 1080 (1080p). 
    GOPRO_RESOLUTION_1440p = 4,  // 1920 x 1440 (1440p). 
    GOPRO_RESOLUTION_2_7k_17_9 = 5,  // 2704 x 1440 (2.7k-17:9). 
    GOPRO_RESOLUTION_2_7k_16_9 = 6,  // 2704 x 1524 (2.7k-16:9). 
    GOPRO_RESOLUTION_2_7k_4_3 = 7,  // 2704 x 2028 (2.7k-4:3). 
    GOPRO_RESOLUTION_4k_16_9 = 8,  // 3840 x 2160 (4k-16:9). 
    GOPRO_RESOLUTION_4k_17_9 = 9,  // 4096 x 2160 (4k-17:9). 
    GOPRO_RESOLUTION_720p_SUPERVIEW = 10,  // 1280 x 720 (720p-SuperView). 
    GOPRO_RESOLUTION_1080p_SUPERVIEW = 11,  // 1920 x 1080 (1080p-SuperView). 
    GOPRO_RESOLUTION_2_7k_SUPERVIEW = 12,  // 2704 x 1520 (2.7k-SuperView). 
    GOPRO_RESOLUTION_4k_SUPERVIEW = 13,  // 3840 x 2160 (4k-SuperView). 
    GOPRO_RESOLUTION_ENUM_END = 14,  // end marker
} GOPRO_RESOLUTION;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_FRAME_RATE
#define FASTMAVLINK_HAS_ENUM_GOPRO_FRAME_RATE
typedef enum GOPRO_FRAME_RATE {
    GOPRO_FRAME_RATE_12 = 0,  // 12 FPS. 
    GOPRO_FRAME_RATE_15 = 1,  // 15 FPS. 
    GOPRO_FRAME_RATE_24 = 2,  // 24 FPS. 
    GOPRO_FRAME_RATE_25 = 3,  // 25 FPS. 
    GOPRO_FRAME_RATE_30 = 4,  // 30 FPS. 
    GOPRO_FRAME_RATE_48 = 5,  // 48 FPS. 
    GOPRO_FRAME_RATE_50 = 6,  // 50 FPS. 
    GOPRO_FRAME_RATE_60 = 7,  // 60 FPS. 
    GOPRO_FRAME_RATE_80 = 8,  // 80 FPS. 
    GOPRO_FRAME_RATE_90 = 9,  // 90 FPS. 
    GOPRO_FRAME_RATE_100 = 10,  // 100 FPS. 
    GOPRO_FRAME_RATE_120 = 11,  // 120 FPS. 
    GOPRO_FRAME_RATE_240 = 12,  // 240 FPS. 
    GOPRO_FRAME_RATE_12_5 = 13,  // 12.5 FPS. 
    GOPRO_FRAME_RATE_ENUM_END = 14,  // end marker
} GOPRO_FRAME_RATE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_FIELD_OF_VIEW
#define FASTMAVLINK_HAS_ENUM_GOPRO_FIELD_OF_VIEW
typedef enum GOPRO_FIELD_OF_VIEW {
    GOPRO_FIELD_OF_VIEW_WIDE = 0,  // 0x00: Wide. 
    GOPRO_FIELD_OF_VIEW_MEDIUM = 1,  // 0x01: Medium. 
    GOPRO_FIELD_OF_VIEW_NARROW = 2,  // 0x02: Narrow. 
    GOPRO_FIELD_OF_VIEW_ENUM_END = 3,  // end marker
} GOPRO_FIELD_OF_VIEW;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_VIDEO_SETTINGS_FLAGS
#define FASTMAVLINK_HAS_ENUM_GOPRO_VIDEO_SETTINGS_FLAGS
typedef enum GOPRO_VIDEO_SETTINGS_FLAGS {
    GOPRO_VIDEO_SETTINGS_TV_MODE = 1,  // 0=NTSC, 1=PAL. 
    GOPRO_VIDEO_SETTINGS_FLAGS_ENUM_END = 2,  // end marker
} GOPRO_VIDEO_SETTINGS_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_PHOTO_RESOLUTION
#define FASTMAVLINK_HAS_ENUM_GOPRO_PHOTO_RESOLUTION
typedef enum GOPRO_PHOTO_RESOLUTION {
    GOPRO_PHOTO_RESOLUTION_5MP_MEDIUM = 0,  // 5MP Medium. 
    GOPRO_PHOTO_RESOLUTION_7MP_MEDIUM = 1,  // 7MP Medium. 
    GOPRO_PHOTO_RESOLUTION_7MP_WIDE = 2,  // 7MP Wide. 
    GOPRO_PHOTO_RESOLUTION_10MP_WIDE = 3,  // 10MP Wide. 
    GOPRO_PHOTO_RESOLUTION_12MP_WIDE = 4,  // 12MP Wide. 
    GOPRO_PHOTO_RESOLUTION_ENUM_END = 5,  // end marker
} GOPRO_PHOTO_RESOLUTION;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_PROTUNE_WHITE_BALANCE
#define FASTMAVLINK_HAS_ENUM_GOPRO_PROTUNE_WHITE_BALANCE
typedef enum GOPRO_PROTUNE_WHITE_BALANCE {
    GOPRO_PROTUNE_WHITE_BALANCE_AUTO = 0,  // Auto. 
    GOPRO_PROTUNE_WHITE_BALANCE_3000K = 1,  // 3000K. 
    GOPRO_PROTUNE_WHITE_BALANCE_5500K = 2,  // 5500K. 
    GOPRO_PROTUNE_WHITE_BALANCE_6500K = 3,  // 6500K. 
    GOPRO_PROTUNE_WHITE_BALANCE_RAW = 4,  // Camera Raw. 
    GOPRO_PROTUNE_WHITE_BALANCE_ENUM_END = 5,  // end marker
} GOPRO_PROTUNE_WHITE_BALANCE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_PROTUNE_COLOUR
#define FASTMAVLINK_HAS_ENUM_GOPRO_PROTUNE_COLOUR
typedef enum GOPRO_PROTUNE_COLOUR {
    GOPRO_PROTUNE_COLOUR_STANDARD = 0,  // Auto. 
    GOPRO_PROTUNE_COLOUR_NEUTRAL = 1,  // Neutral. 
    GOPRO_PROTUNE_COLOUR_ENUM_END = 2,  // end marker
} GOPRO_PROTUNE_COLOUR;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_PROTUNE_GAIN
#define FASTMAVLINK_HAS_ENUM_GOPRO_PROTUNE_GAIN
typedef enum GOPRO_PROTUNE_GAIN {
    GOPRO_PROTUNE_GAIN_400 = 0,  // ISO 400. 
    GOPRO_PROTUNE_GAIN_800 = 1,  // ISO 800 (Only Hero 4). 
    GOPRO_PROTUNE_GAIN_1600 = 2,  // ISO 1600. 
    GOPRO_PROTUNE_GAIN_3200 = 3,  // ISO 3200 (Only Hero 4). 
    GOPRO_PROTUNE_GAIN_6400 = 4,  // ISO 6400. 
    GOPRO_PROTUNE_GAIN_ENUM_END = 5,  // end marker
} GOPRO_PROTUNE_GAIN;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_PROTUNE_SHARPNESS
#define FASTMAVLINK_HAS_ENUM_GOPRO_PROTUNE_SHARPNESS
typedef enum GOPRO_PROTUNE_SHARPNESS {
    GOPRO_PROTUNE_SHARPNESS_LOW = 0,  // Low Sharpness. 
    GOPRO_PROTUNE_SHARPNESS_MEDIUM = 1,  // Medium Sharpness. 
    GOPRO_PROTUNE_SHARPNESS_HIGH = 2,  // High Sharpness. 
    GOPRO_PROTUNE_SHARPNESS_ENUM_END = 3,  // end marker
} GOPRO_PROTUNE_SHARPNESS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_PROTUNE_EXPOSURE
#define FASTMAVLINK_HAS_ENUM_GOPRO_PROTUNE_EXPOSURE
typedef enum GOPRO_PROTUNE_EXPOSURE {
    GOPRO_PROTUNE_EXPOSURE_NEG_5_0 = 0,  // -5.0 EV (Hero 3+ Only). 
    GOPRO_PROTUNE_EXPOSURE_NEG_4_5 = 1,  // -4.5 EV (Hero 3+ Only). 
    GOPRO_PROTUNE_EXPOSURE_NEG_4_0 = 2,  // -4.0 EV (Hero 3+ Only). 
    GOPRO_PROTUNE_EXPOSURE_NEG_3_5 = 3,  // -3.5 EV (Hero 3+ Only). 
    GOPRO_PROTUNE_EXPOSURE_NEG_3_0 = 4,  // -3.0 EV (Hero 3+ Only). 
    GOPRO_PROTUNE_EXPOSURE_NEG_2_5 = 5,  // -2.5 EV (Hero 3+ Only). 
    GOPRO_PROTUNE_EXPOSURE_NEG_2_0 = 6,  // -2.0 EV. 
    GOPRO_PROTUNE_EXPOSURE_NEG_1_5 = 7,  // -1.5 EV. 
    GOPRO_PROTUNE_EXPOSURE_NEG_1_0 = 8,  // -1.0 EV. 
    GOPRO_PROTUNE_EXPOSURE_NEG_0_5 = 9,  // -0.5 EV. 
    GOPRO_PROTUNE_EXPOSURE_ZERO = 10,  // 0.0 EV. 
    GOPRO_PROTUNE_EXPOSURE_POS_0_5 = 11,  // +0.5 EV. 
    GOPRO_PROTUNE_EXPOSURE_POS_1_0 = 12,  // +1.0 EV. 
    GOPRO_PROTUNE_EXPOSURE_POS_1_5 = 13,  // +1.5 EV. 
    GOPRO_PROTUNE_EXPOSURE_POS_2_0 = 14,  // +2.0 EV. 
    GOPRO_PROTUNE_EXPOSURE_POS_2_5 = 15,  // +2.5 EV (Hero 3+ Only). 
    GOPRO_PROTUNE_EXPOSURE_POS_3_0 = 16,  // +3.0 EV (Hero 3+ Only). 
    GOPRO_PROTUNE_EXPOSURE_POS_3_5 = 17,  // +3.5 EV (Hero 3+ Only). 
    GOPRO_PROTUNE_EXPOSURE_POS_4_0 = 18,  // +4.0 EV (Hero 3+ Only). 
    GOPRO_PROTUNE_EXPOSURE_POS_4_5 = 19,  // +4.5 EV (Hero 3+ Only). 
    GOPRO_PROTUNE_EXPOSURE_POS_5_0 = 20,  // +5.0 EV (Hero 3+ Only). 
    GOPRO_PROTUNE_EXPOSURE_ENUM_END = 21,  // end marker
} GOPRO_PROTUNE_EXPOSURE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_CHARGING
#define FASTMAVLINK_HAS_ENUM_GOPRO_CHARGING
typedef enum GOPRO_CHARGING {
    GOPRO_CHARGING_DISABLED = 0,  // Charging disabled. 
    GOPRO_CHARGING_ENABLED = 1,  // Charging enabled. 
    GOPRO_CHARGING_ENUM_END = 2,  // end marker
} GOPRO_CHARGING;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_MODEL
#define FASTMAVLINK_HAS_ENUM_GOPRO_MODEL
typedef enum GOPRO_MODEL {
    GOPRO_MODEL_UNKNOWN = 0,  // Unknown gopro model. 
    GOPRO_MODEL_HERO_3_PLUS_SILVER = 1,  // Hero 3+ Silver (HeroBus not supported by GoPro). 
    GOPRO_MODEL_HERO_3_PLUS_BLACK = 2,  // Hero 3+ Black. 
    GOPRO_MODEL_HERO_4_SILVER = 3,  // Hero 4 Silver. 
    GOPRO_MODEL_HERO_4_BLACK = 4,  // Hero 4 Black. 
    GOPRO_MODEL_ENUM_END = 5,  // end marker
} GOPRO_MODEL;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_GOPRO_BURST_RATE
#define FASTMAVLINK_HAS_ENUM_GOPRO_BURST_RATE
typedef enum GOPRO_BURST_RATE {
    GOPRO_BURST_RATE_3_IN_1_SECOND = 0,  // 3 Shots / 1 Second. 
    GOPRO_BURST_RATE_5_IN_1_SECOND = 1,  // 5 Shots / 1 Second. 
    GOPRO_BURST_RATE_10_IN_1_SECOND = 2,  // 10 Shots / 1 Second. 
    GOPRO_BURST_RATE_10_IN_2_SECOND = 3,  // 10 Shots / 2 Second. 
    GOPRO_BURST_RATE_10_IN_3_SECOND = 4,  // 10 Shots / 3 Second (Hero 4 Only). 
    GOPRO_BURST_RATE_30_IN_1_SECOND = 5,  // 30 Shots / 1 Second. 
    GOPRO_BURST_RATE_30_IN_2_SECOND = 6,  // 30 Shots / 2 Second. 
    GOPRO_BURST_RATE_30_IN_3_SECOND = 7,  // 30 Shots / 3 Second. 
    GOPRO_BURST_RATE_30_IN_6_SECOND = 8,  // 30 Shots / 6 Second. 
    GOPRO_BURST_RATE_ENUM_END = 9,  // end marker
} GOPRO_BURST_RATE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_CMD_DO_AUX_FUNCTION_SWITCH_LEVEL
#define FASTMAVLINK_HAS_ENUM_MAV_CMD_DO_AUX_FUNCTION_SWITCH_LEVEL
typedef enum MAV_CMD_DO_AUX_FUNCTION_SWITCH_LEVEL {
    MAV_CMD_DO_AUX_FUNCTION_SWITCH_LEVEL_LOW = 0,  // Switch Low. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_AUX_FUNCTION_SWITCH_LEVEL_MIDDLE = 1,  // Switch Middle. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_AUX_FUNCTION_SWITCH_LEVEL_HIGH = 2,  // Switch High. | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0) | Reserved (default:0)
    MAV_CMD_DO_AUX_FUNCTION_SWITCH_LEVEL_ENUM_END = 3,  // end marker
} MAV_CMD_DO_AUX_FUNCTION_SWITCH_LEVEL;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_LED_CONTROL_PATTERN
#define FASTMAVLINK_HAS_ENUM_LED_CONTROL_PATTERN
typedef enum LED_CONTROL_PATTERN {
    LED_CONTROL_PATTERN_OFF = 0,  // LED patterns off (return control to regular vehicle control). 
    LED_CONTROL_PATTERN_FIRMWAREUPDATE = 1,  // LEDs show pattern during firmware update. 
    LED_CONTROL_PATTERN_CUSTOM = 255,  // Custom Pattern using custom bytes fields. 
    LED_CONTROL_PATTERN_ENUM_END = 256,  // end marker
} LED_CONTROL_PATTERN;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_EKF_STATUS_FLAGS
#define FASTMAVLINK_HAS_ENUM_EKF_STATUS_FLAGS
typedef enum EKF_STATUS_FLAGS {
    EKF_ATTITUDE = 1,  // Set if EKF's attitude estimate is good. 
    EKF_VELOCITY_HORIZ = 2,  // Set if EKF's horizontal velocity estimate is good. 
    EKF_VELOCITY_VERT = 4,  // Set if EKF's vertical velocity estimate is good. 
    EKF_POS_HORIZ_REL = 8,  // Set if EKF's horizontal position (relative) estimate is good. 
    EKF_POS_HORIZ_ABS = 16,  // Set if EKF's horizontal position (absolute) estimate is good. 
    EKF_POS_VERT_ABS = 32,  // Set if EKF's vertical position (absolute) estimate is good. 
    EKF_POS_VERT_AGL = 64,  // Set if EKF's vertical position (above ground) estimate is good. 
    EKF_CONST_POS_MODE = 128,  // EKF is in constant position mode and does not know it's absolute or relative position. 
    EKF_PRED_POS_HORIZ_REL = 256,  // Set if EKF's predicted horizontal position (relative) estimate is good. 
    EKF_PRED_POS_HORIZ_ABS = 512,  // Set if EKF's predicted horizontal position (absolute) estimate is good. 
    EKF_UNINITIALIZED = 1024,  // Set if EKF has never been healthy. 
    EKF_STATUS_FLAGS_ENUM_END = 1025,  // end marker
} EKF_STATUS_FLAGS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_PID_TUNING_AXIS
#define FASTMAVLINK_HAS_ENUM_PID_TUNING_AXIS
typedef enum PID_TUNING_AXIS {
    PID_TUNING_ROLL = 1,  //  
    PID_TUNING_PITCH = 2,  //  
    PID_TUNING_YAW = 3,  //  
    PID_TUNING_ACCZ = 4,  //  
    PID_TUNING_STEER = 5,  //  
    PID_TUNING_LANDING = 6,  //  
    PID_TUNING_AXIS_ENUM_END = 7,  // end marker
} PID_TUNING_AXIS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_REMOTE_LOG_DATA_BLOCK_COMMANDS
#define FASTMAVLINK_HAS_ENUM_MAV_REMOTE_LOG_DATA_BLOCK_COMMANDS
typedef enum MAV_REMOTE_LOG_DATA_BLOCK_COMMANDS {
    MAV_REMOTE_LOG_DATA_BLOCK_STOP = 2147483645,  // UAV to stop sending DataFlash blocks. 
    MAV_REMOTE_LOG_DATA_BLOCK_START = 2147483646,  // UAV to start sending DataFlash blocks. 
    MAV_REMOTE_LOG_DATA_BLOCK_COMMANDS_ENUM_END = 2147483647,  // end marker
} MAV_REMOTE_LOG_DATA_BLOCK_COMMANDS;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_MAV_REMOTE_LOG_DATA_BLOCK_STATUSES
#define FASTMAVLINK_HAS_ENUM_MAV_REMOTE_LOG_DATA_BLOCK_STATUSES
typedef enum MAV_REMOTE_LOG_DATA_BLOCK_STATUSES {
    MAV_REMOTE_LOG_DATA_BLOCK_NACK = 0,  // This block has NOT been received. 
    MAV_REMOTE_LOG_DATA_BLOCK_ACK = 1,  // This block has been received. 
    MAV_REMOTE_LOG_DATA_BLOCK_STATUSES_ENUM_END = 2,  // end marker
} MAV_REMOTE_LOG_DATA_BLOCK_STATUSES;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_DEVICE_OP_BUSTYPE
#define FASTMAVLINK_HAS_ENUM_DEVICE_OP_BUSTYPE
typedef enum DEVICE_OP_BUSTYPE {
    DEVICE_OP_BUSTYPE_I2C = 0,  // I2C Device operation. 
    DEVICE_OP_BUSTYPE_SPI = 1,  // SPI Device operation. 
    DEVICE_OP_BUSTYPE_ENUM_END = 2,  // end marker
} DEVICE_OP_BUSTYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_DEEPSTALL_STAGE
#define FASTMAVLINK_HAS_ENUM_DEEPSTALL_STAGE
typedef enum DEEPSTALL_STAGE {
    DEEPSTALL_STAGE_FLY_TO_LANDING = 0,  // Flying to the landing point. 
    DEEPSTALL_STAGE_ESTIMATE_WIND = 1,  // Building an estimate of the wind. 
    DEEPSTALL_STAGE_WAIT_FOR_BREAKOUT = 2,  // Waiting to breakout of the loiter to fly the approach. 
    DEEPSTALL_STAGE_FLY_TO_ARC = 3,  // Flying to the first arc point to turn around to the landing point. 
    DEEPSTALL_STAGE_ARC = 4,  // Turning around back to the deepstall landing point. 
    DEEPSTALL_STAGE_APPROACH = 5,  // Approaching the landing point. 
    DEEPSTALL_STAGE_LAND = 6,  // Stalling and steering towards the land point. 
    DEEPSTALL_STAGE_ENUM_END = 7,  // end marker
} DEEPSTALL_STAGE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_PLANE_MODE
#define FASTMAVLINK_HAS_ENUM_PLANE_MODE
typedef enum PLANE_MODE {
    PLANE_MODE_MANUAL = 0,  //  
    PLANE_MODE_CIRCLE = 1,  //  
    PLANE_MODE_STABILIZE = 2,  //  
    PLANE_MODE_TRAINING = 3,  //  
    PLANE_MODE_ACRO = 4,  //  
    PLANE_MODE_FLY_BY_WIRE_A = 5,  //  
    PLANE_MODE_FLY_BY_WIRE_B = 6,  //  
    PLANE_MODE_CRUISE = 7,  //  
    PLANE_MODE_AUTOTUNE = 8,  //  
    PLANE_MODE_AUTO = 10,  //  
    PLANE_MODE_RTL = 11,  //  
    PLANE_MODE_LOITER = 12,  //  
    PLANE_MODE_TAKEOFF = 13,  //  
    PLANE_MODE_AVOID_ADSB = 14,  //  
    PLANE_MODE_GUIDED = 15,  //  
    PLANE_MODE_INITIALIZING = 16,  //  
    PLANE_MODE_QSTABILIZE = 17,  //  
    PLANE_MODE_QHOVER = 18,  //  
    PLANE_MODE_QLOITER = 19,  //  
    PLANE_MODE_QLAND = 20,  //  
    PLANE_MODE_QRTL = 21,  //  
    PLANE_MODE_QAUTOTUNE = 22,  //  
    PLANE_MODE_QACRO = 23,  //  
    PLANE_MODE_THERMAL = 24,  //  
    PLANE_MODE_ENUM_END = 25,  // end marker
} PLANE_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_COPTER_MODE
#define FASTMAVLINK_HAS_ENUM_COPTER_MODE
typedef enum COPTER_MODE {
    COPTER_MODE_STABILIZE = 0,  //  
    COPTER_MODE_ACRO = 1,  //  
    COPTER_MODE_ALT_HOLD = 2,  //  
    COPTER_MODE_AUTO = 3,  //  
    COPTER_MODE_GUIDED = 4,  //  
    COPTER_MODE_LOITER = 5,  //  
    COPTER_MODE_RTL = 6,  //  
    COPTER_MODE_CIRCLE = 7,  //  
    COPTER_MODE_LAND = 9,  //  
    COPTER_MODE_DRIFT = 11,  //  
    COPTER_MODE_SPORT = 13,  //  
    COPTER_MODE_FLIP = 14,  //  
    COPTER_MODE_AUTOTUNE = 15,  //  
    COPTER_MODE_POSHOLD = 16,  //  
    COPTER_MODE_BRAKE = 17,  //  
    COPTER_MODE_THROW = 18,  //  
    COPTER_MODE_AVOID_ADSB = 19,  //  
    COPTER_MODE_GUIDED_NOGPS = 20,  //  
    COPTER_MODE_SMART_RTL = 21,  //  
    COPTER_MODE_FLOWHOLD = 22,  //  
    COPTER_MODE_FOLLOW = 23,  //  
    COPTER_MODE_ZIGZAG = 24,  //  
    COPTER_MODE_SYSTEMID = 25,  //  
    COPTER_MODE_AUTOROTATE = 26,  //  
    COPTER_MODE_AUTO_RTL = 27,  //  
    COPTER_MODE_ENUM_END = 28,  // end marker
} COPTER_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_SUB_MODE
#define FASTMAVLINK_HAS_ENUM_SUB_MODE
typedef enum SUB_MODE {
    SUB_MODE_STABILIZE = 0,  //  
    SUB_MODE_ACRO = 1,  //  
    SUB_MODE_ALT_HOLD = 2,  //  
    SUB_MODE_AUTO = 3,  //  
    SUB_MODE_GUIDED = 4,  //  
    SUB_MODE_CIRCLE = 7,  //  
    SUB_MODE_SURFACE = 9,  //  
    SUB_MODE_POSHOLD = 16,  //  
    SUB_MODE_MANUAL = 19,  //  
    SUB_MODE_ENUM_END = 20,  // end marker
} SUB_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_ROVER_MODE
#define FASTMAVLINK_HAS_ENUM_ROVER_MODE
typedef enum ROVER_MODE {
    ROVER_MODE_MANUAL = 0,  //  
    ROVER_MODE_ACRO = 1,  //  
    ROVER_MODE_STEERING = 3,  //  
    ROVER_MODE_HOLD = 4,  //  
    ROVER_MODE_LOITER = 5,  //  
    ROVER_MODE_FOLLOW = 6,  //  
    ROVER_MODE_SIMPLE = 7,  //  
    ROVER_MODE_AUTO = 10,  //  
    ROVER_MODE_RTL = 11,  //  
    ROVER_MODE_SMART_RTL = 12,  //  
    ROVER_MODE_GUIDED = 15,  //  
    ROVER_MODE_INITIALIZING = 16,  //  
    ROVER_MODE_ENUM_END = 17,  // end marker
} ROVER_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_TRACKER_MODE
#define FASTMAVLINK_HAS_ENUM_TRACKER_MODE
typedef enum TRACKER_MODE {
    TRACKER_MODE_MANUAL = 0,  //  
    TRACKER_MODE_STOP = 1,  //  
    TRACKER_MODE_SCAN = 2,  //  
    TRACKER_MODE_SERVO_TEST = 3,  //  
    TRACKER_MODE_AUTO = 10,  //  
    TRACKER_MODE_INITIALIZING = 16,  //  
    TRACKER_MODE_ENUM_END = 17,  // end marker
} TRACKER_MODE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_OSD_PARAM_CONFIG_TYPE
#define FASTMAVLINK_HAS_ENUM_OSD_PARAM_CONFIG_TYPE
typedef enum OSD_PARAM_CONFIG_TYPE {
    OSD_PARAM_NONE = 0,  //  
    OSD_PARAM_SERIAL_PROTOCOL = 1,  //  
    OSD_PARAM_SERVO_FUNCTION = 2,  //  
    OSD_PARAM_AUX_FUNCTION = 3,  //  
    OSD_PARAM_FLIGHT_MODE = 4,  //  
    OSD_PARAM_FAILSAFE_ACTION = 5,  //  
    OSD_PARAM_FAILSAFE_ACTION_1 = 6,  //  
    OSD_PARAM_FAILSAFE_ACTION_2 = 7,  //  
    OSD_PARAM_NUM_TYPES = 8,  //  
    OSD_PARAM_CONFIG_TYPE_ENUM_END = 9,  // end marker
} OSD_PARAM_CONFIG_TYPE;
#endif


#ifndef FASTMAVLINK_HAS_ENUM_OSD_PARAM_CONFIG_ERROR
#define FASTMAVLINK_HAS_ENUM_OSD_PARAM_CONFIG_ERROR
typedef enum OSD_PARAM_CONFIG_ERROR {
    OSD_PARAM_SUCCESS = 0,  //  
    OSD_PARAM_INVALID_SCREEN = 1,  //  
    OSD_PARAM_INVALID_PARAMETER_INDEX = 2,  //  
    OSD_PARAM_INVALID_PARAMETER = 3,  //  
    OSD_PARAM_CONFIG_ERROR_ENUM_END = 4,  // end marker
} OSD_PARAM_CONFIG_ERROR;
#endif

#endif // FASTMAVLINK_DO_NOT_INCLUDE_ENUMS


//------------------------------
//-- Message definitions
//------------------------------

#ifdef FASTMAVLINK_IGNORE_WADDRESSOFPACKEDMEMBER
  #if defined __GNUC__ && __GNUC__ >= 9
    #pragma GCC diagnostic push
    #pragma GCC diagnostic ignored "-Waddress-of-packed-member"
  #endif
#endif

#include "./mavlink_msg_sensor_offsets.h"
#include "./mavlink_msg_set_mag_offsets.h"
#include "./mavlink_msg_meminfo.h"
#include "./mavlink_msg_ap_adc.h"
#include "./mavlink_msg_digicam_configure.h"
#include "./mavlink_msg_digicam_control.h"
#include "./mavlink_msg_mount_configure.h"
#include "./mavlink_msg_mount_control.h"
#include "./mavlink_msg_mount_status.h"
#include "./mavlink_msg_fence_point.h"
#include "./mavlink_msg_fence_fetch_point.h"
#include "./mavlink_msg_ahrs.h"
#include "./mavlink_msg_simstate.h"
#include "./mavlink_msg_hwstatus.h"
#include "./mavlink_msg_radio.h"
#include "./mavlink_msg_limits_status.h"
#include "./mavlink_msg_wind.h"
#include "./mavlink_msg_data16.h"
#include "./mavlink_msg_data32.h"
#include "./mavlink_msg_data64.h"
#include "./mavlink_msg_data96.h"
#include "./mavlink_msg_rangefinder.h"
#include "./mavlink_msg_airspeed_autocal.h"
#include "./mavlink_msg_rally_point.h"
#include "./mavlink_msg_rally_fetch_point.h"
#include "./mavlink_msg_compassmot_status.h"
#include "./mavlink_msg_ahrs2.h"
#include "./mavlink_msg_camera_status.h"
#include "./mavlink_msg_camera_feedback.h"
#include "./mavlink_msg_battery2.h"
#include "./mavlink_msg_ahrs3.h"
#include "./mavlink_msg_autopilot_version_request.h"
#include "./mavlink_msg_remote_log_data_block.h"
#include "./mavlink_msg_remote_log_block_status.h"
#include "./mavlink_msg_led_control.h"
#include "./mavlink_msg_mag_cal_progress.h"
#include "./mavlink_msg_ekf_status_report.h"
#include "./mavlink_msg_pid_tuning.h"
#include "./mavlink_msg_deepstall.h"
#include "./mavlink_msg_gimbal_report.h"
#include "./mavlink_msg_gimbal_control.h"
#include "./mavlink_msg_gimbal_torque_cmd_report.h"
#include "./mavlink_msg_gopro_heartbeat.h"
#include "./mavlink_msg_gopro_get_request.h"
#include "./mavlink_msg_gopro_get_response.h"
#include "./mavlink_msg_gopro_set_request.h"
#include "./mavlink_msg_gopro_set_response.h"
#include "./mavlink_msg_rpm.h"
#include "./mavlink_msg_device_op_read.h"
#include "./mavlink_msg_device_op_read_reply.h"
#include "./mavlink_msg_device_op_write.h"
#include "./mavlink_msg_device_op_write_reply.h"
#include "./mavlink_msg_adap_tuning.h"
#include "./mavlink_msg_vision_position_delta.h"
#include "./mavlink_msg_aoa_ssa.h"
#include "./mavlink_msg_esc_telemetry_1_to_4.h"
#include "./mavlink_msg_esc_telemetry_5_to_8.h"
#include "./mavlink_msg_esc_telemetry_9_to_12.h"
#include "./mavlink_msg_osd_param_config.h"
#include "./mavlink_msg_osd_param_config_reply.h"
#include "./mavlink_msg_osd_param_show_config.h"
#include "./mavlink_msg_osd_param_show_config_reply.h"
#include "./mavlink_msg_obstacle_distance_3d.h"
#include "./mavlink_msg_water_depth.h"
#include "./mavlink_msg_mcu_status.h"

#ifdef FASTMAVLINK_IGNORE_WADDRESSOFPACKEDMEMBER
  #if defined __GNUC__ && __GNUC__ >= 9
    #pragma GCC diagnostic pop
  #endif
#endif


//------------------------------
//-- Dialect includes
//------------------------------

#include "../common/common.h"
#include "../uAvionix/uAvionix.h"
#include "../icarous/icarous.h"


#ifdef __cplusplus
}
#endif

#endif // FASTMAVLINK_ARDUPILOTMEGA_H
